CPOC-GS-ST-0005-CPOC v1 HL

OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 2 of 64 TABLE OF CONTENTS 1.0 SCOPE 2.0 REFERENCES 4 2.1 Industry Codes and Staindards 5 2.2 CPOC General Specifications 7 3.0 GENERAL 7 3.1 Definitions 7 3.2 Abbreviations 8 4.0 GENERAL WELDING AND INSPECTION REQUIREMENTS 4.1 General 5.0 WELDING CONSUMABLES 5.1 6.0 4 General 11 11 12 12 5.2 Selection of Consumables 12 5.3 13 Essential Variables 5.4 Supply, Storage and Use 15 5.5 15 Drying Procedures and Use of Electrodes 5.6 Substitution of Materials 16 5.7 16 Material Inspection and Storage QUALIFICATION OF WELDING PROCEDURE, PERSONNEL AND EQUIPMENT 16 6.1 General 16 6.2 Material Groups for Welding Conditions 17 6.3 Welding Procedure Specifications (WPS) 19 6.4 Welding Procedure Qualification Tests 21 6.5 Qualification of Welding Personnel 27 6.6 Welding Equipment 29 7.0 PRODUCTION WELDING 30 7.1 General Requirements 30 7.2 Welding Processes 32 7.3 Base Metal Preparation 33 7.4 Cutting and Edge Preparation 33 7.5 Welding Sequences 33 7.6 Tack Welds 34 7.7 Correction of Unacceptable Fit-ups 34 7.8 Weld Identification and Marking 35 OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC 7. 9 Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 3 of 64 Tubular Splices 35 7.10 Beam Splices 36 7.11 Welded Connections 36 7.12 Fillet and Seal Welds 36 7.13 Stiffeners and Padeyes 37 7.14 Preheating and Interpass Temperature 37 7.15 Weld Profile 38 7.16 Arc Strikes 38 7.17 Weld Interruption 38 7.18 Post Weld Heat Treatment (PWHT) 39 7.19 Temporary Welds 40 7.20 Cleaning 41 8.0 INSPECTION AND TESTING 41 8.1 General 41 8.2 Qualification of NDT Procedures and Personnel 43 8.3 Radiographic Examination 43 8.4 Ultrasonic Examination 44 8.5 Magnetic Particle Inspection (MPI) 45 8.6 Liquid Penetrant Inspection (LPI) 45 8.7 Production Tests 47 9.0 WELDING REPAIRS 48 9.1 General 48 9.2 Method of Repair 50 9.3 Approval 50 10.0 DOCUMENTATION 51 LIST OF FIGURES. 52 ATTACHMENT 1 PROCEDURE, STANDARDS AND ACCEPTANCE CRITERIA FOR 58 STRUCTURAL WELDING ATTACHMENT 2 NDT EXTENT FOR WELDING OF OFFSHORE STRUCTURES 58 CPOC 1.0 OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 4 of 64 SCOPE This Specification applies to all COMPANY Projects and defines the minimum requirements of structural welding and inspection for the CPOC Block B-17 Field Development Area. The specification defines the minimum requirements for welding process, welding consumables, welding equipment, welding procedures, and qualification of welding procedures, qualification of welders / welding operators, production welding, and weld inspection of offshore structures, topsides and buildings onshore and offshore. This specification applies to shop, yard and offshore welding. This specification applies to fabrication, onshore and offshore installation for the structures as shown in the Contract Documents; and also to sea-fastenings, temporary structures, construction aids. This specification shall also be used in conjunction with a Project Particular Specification (PPS) detailing the additional requirements, based on the specific design conditions of the project. 2.0 REFERENCES The reference documents listed below, including Industry Codes and Standards and COMPANY specifications, form an integral part of this General Specification. Unless otherwise stipulated, the applicable version of these documents, including relevant appendices and supplements, is the latest revision published on the effective date of the contract. The overall order of precedence of the applicable documents shall be: 1) Government Laws, Rules and Regulations 2) Purchase Order/ Service Order/ Contract Documents 3) Project Particular Specification (PPS) 4) Present General Specification 5) Codes and Standards in reference Any conflict between any of the Contract Documents, or between this specification and any other Contract Document, shall be reported to the COMPANY for decision. In such a case, and unless otherwise agreed or decided by the COMPANY, it is understood that the more stringent requirement shall apply. Exceptions to, or deviations from this specification are not permitted unless previously accepted in writing by the COMPANY. For this purpose, requests for substitutions or changes of any kind shall be complete with all pertinent information required for COMPANY assessment. COMPANY’s approval, nevertheless, will not, in any way, relieve the responsibility of the Supplier to meet the requirements of the industry Codes and Standards referred to and amended herein, in the event of conflict. Applicable Codes and Standards which are to be used in conjunction with this specification shall be as stated hereafter. 1 OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC 2.1 Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 5 of 64 Industry Codes and Standards Reference A 370 Title Standard Methods and Definitions for Mechanical Testing of Steel Products AISC Manual of Steel Construction ANSI / AWS D1.1 Structural Welding Code - Steel API RP 2A Recommended Practice for Planning, Designing and Constructing Fixed Offshore Platforms – Working Stress Design API RP 2X Ultrasonic Examination of Offshore Structural Welding ASNT TC-1A Nondestructive Testing Personnel Qualification and Certification ASTM E23 Notched Bar Impact Testing of Metallic Materials AWS 5.29 Specification for Alloy Steel Electrodes and Fluxes for Cored Arc Welding AWS A5.01 Structural Welding Code – Steel Filler Metal Procurement Guideline AWS A5.1 Specification for Covered Carbon Steel Arc Welding Electrodes AWS A5.17 Specification for Bare Mild Steel Electrodes and Fluxes for Submerged ArcWelding (SAW) AWS A5.18 Specification for Carbon Steel Filler Metals for Gas Shielded Arc Welding (GMAW) AWS A5.20 Specification for Carbon Steel Electrodes for Flux Cored Arc Welding (FCAW) AWS A5.23 Specification for Alloy Steel Electrodes and Fluxes for Submerged Arc Welding AWS A5.5 Specification for Low-alloy Steel Covered Arc-Welding Electrodes OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Reference Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 6 of 64 Title BS 7448 Fracture Mechanics Toughness Tests, Part 1 : Methods for Determination of KIc, Critical CTOD and Critical J Values of Metallic Materials, Part 2 : Method for Determination of KIc, Critical CTOD and Critical J Values of Welds in Metallic Materials, Part 3 : Method for determination of fracture toughness of metallic materials at rates of increase in stress intensity factor of 3.0 MPa., Part 4 : Method for Determination of Fracture Resistance Curves and Initiation Values for Stable crack extension in metallic materials BS 7910 Guide on Methods for Assessing the Acceptability of Flaws in Metallic Structures EEMUA 158 Construction Specification for Fixed Offshore Structures in the North Sea ISO 1000 International System of Units ISO 148 Charpy Impact Test (V-notch) ISO 19902 Petroleum and Natural Gas Industries - Fixed Steel Offshore Structures ISO 9001 Quality Systems – Specifications for Design, Development and Servicing. NORSOK M-101 Structural Steel Fabrication OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC 2.2 Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 7 of 64 CPOC General Specifications Reference Title CPOC-GS-GEN-0003 QA/QC Inspection and Testing CPOC-GS-ST-0001 Offshore Structural Materials CPOC-GS-ST-0002 Structural Steel Fabrication CPOC-GS-ST-0005 Offshore Structural Welding and Inspection CPOC-GS-ST-0009 Painting of Offshore and Coastal Structures and Facilities 3.0 GENERAL 3.1 Definitions Reference Description Approval, approved The authorization in writing given by the COMPANY to the Contractor on a procedure or to proceed with the performance of a specific part of the work without releasing in any way the Supplier from any of his obligations to conform with the technical specifications, requisitions, etc. The words “Approve”, “Approved” and “Approval” shall be construed accordingly COMPANY CARIGALI – PTTEPI Operating Company Sdn Bhd (CPOC) Contract Documents The drawings, equipment lists, bills of material, material specifications, etc., latest editions, issued by the COMPANY and attached to the Contract or the Purchase Order Contractor The company designated on the Purchase Order form or Contract as being selected for performing the fabrication work Inspector The COMPANY’s or Contractor’s representative(s), (as applicable), or member(s) from an Inspection Agency duly appointed by the COMPANY or the Supplier (as applicable) to act as its representative(s) for the purpose of the contract Manufacturer PPS The company or its sub-contractors selected by the COMPANY or the Contractor (as applicable) as the Manufacturer of the said materials Designates Project Particular Specification detailing the additional tests and requirements or the possible modifications to the present specification, based on the particular design conditions or the local legislation of the structural project OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Reference CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 8 of 64 Description Primary steel Any structural member failure would cause total or partial platform shutdown, but no total or partial destruction of the platform. Repair of these members would only be made if operation or installation of the platform is stopped Purchase Order The order issued by Purchaser consisting Terms and Conditions and attachments thereto including but not limited to Data Sheets and Drawings, Specifications including referenced documentation therein, and all other documents and attachments Purchaser The COMPANY or the Contractor (as applicable) which have placed the Purchase Order to the Manufacturer Secondary steel All structural members not classified as Special and Primary Steel members, but contributing strength and stiffness to the platform structure Site The yards, workshops, docks, laboratories or other locations where the fabrication inspection and testing are to be performed complete or in part, shall be referred to herein as the “Site” Special steel 3.2 Doc. No. Any structural member failure would cause total or partial destruction of the platform during in-service operation or destruction of parts of the platform during installation, or members that cannot be repaired Tertiary steel All steel members for accessory and finishing elements contributing no stiffness and strength to the platform structure WORK All welding activities as define in the Scope of Work Shall Used to indicate that a provision is mandatory Should Used to indicate that a provision is recommended as good practice May Used to indicate that a provision is optional Abbreviations Reference Title AC Alternating Current ACI American Concrete Institute AFC Approved For Construction AISC American Institute of Steel Construction ANSI American National Standards Institute API American Petroleum Institute OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Reference Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 9 of 64 Title AS Australian Standards ASME American Society of Mechanical Engineers ASNT American Society for Nondestructive Testing ASTM American Society of Testing Materials AWS American Welding Society BS British Standards BSI British Standards Institute C Carbon CE Carbon Equivalent CSWIP Certification Scheme for Welding and Inspection Personnel CTOD Crack Tip Opening Displacement DAC Distance Amplitude Correction DC Direct Current DPT Dye Penetrant Test EMI Electro Magnetic Inspection EN European Institute FCAW Flux Cored Arc Welding FL Fusion Line FPSO Floating Production Storage and Offloading FPU Floating Production Unit GMAW Gas Metal Arc Welding GSFCAW Gas Shielded Flux Cored Arc Welding GTAW Gas Tungsten Arc Welding HAZ Heat Affected Zone HRC Rockwell Hardness (C scale) HS High Strength ID Inside Diameter, identification ISO International Organisation for Standardisations ITP Inspection and Testing Plan JIS Japanese Industrial Standards ksi Kips per square inches LPI Liquid Penetrant Inspection OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Reference Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 10 of 64 Title MDR Manufacturers Data Report MMA Manual Metal Arc Mn Manganese MPa Mega Pascal MPI Magnetic Particle Inspection MPS Manufacturing Procedure Specification MT Magnetic Particle Testing NACE National Association of Corrosion Engineers NDT Non Destructive Testing OD Outside Diameter PPS Project Particular Specification PQP Project Quality Plan PQR Procedure Qualification Record PS Percentage of Strain PT Penetrant Testing CGS CPOC General Specification PWHT Post Weld Heat Treatment QA Quality Assurance QC Quality Control QT Quenched and Tempered RA Reduction Area RP Recommended Practice RT Radiographic Testing SAW Submerged Arc Welding SI International System (of Units) SMAW Shielded (Manual Metal) Arc Welding SMYS Specified Minimum Yield Strength SSFCAW Self Shielded Flux Cored Arc Welding SSPC Steel Structures Painting Council STR Structural TIG Tungsten Inert Gas TL Tightened Length OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Reference Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 11 of 64 Title TMCP Thermo-Mechanical Control Process TOS Top Of Steel TPI Third Party Inspection TQ Technical Query TTP Through-Thickness Plate UOE U-ing, O-ing and Expanding UT Ultrasonic Testing UTS Ultimate Tensile Strength VI Visual Inspection WI Welding Institute WPG Welded Plate Girder WPQ Welding Procedure Qualification WPQR Welding Procedure Qualification Records WPS Welding Procedure Specifications WT Wall Thickness YS Yield Strength 4.0 GENERAL WELDING AND INSPECTION REQUIREMENTS 4.1 General 4.1.1 Contractor shall provide qualified superintendents, engineers, technicians, surveyors and labourers, tools, equipment and machinery, materials, quality assurance, testing, storage, fabrication areas, loadout facilities, offices, laboratory, etc. necessary to carry out qualification of welding procedures and welders, handling, fabrication, welding, inspection and cleaning of the structures according to this specification. 4.1.2 Welding shall be in accordance with CPOC-GS-ST-0005, with the appropriate references to ANSI / AWS D1.1, and Section 10 of API RP 2A unless otherwise indicated in this specification. 4.1.3 Typical welding details (to be provided) shall be applicable unless otherwise specified by COMPANY. 4.1.4 Welders shall be provided with individual portable ovens (heating quivers) for electrode conservation during the work on site. OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC 5.0 WELDING CONSUMABLES 5.1 General 5.2 Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 12 of 64 5.1.1 This section shall be read in conjunction with CPOC-GS-ST-0001 “Offshore Structural Materials”, CPOC-GS-ST-0002 “Structural Steel Fabrication” and the following paragraphs of this specification 5.1.2 All welding materials provided shall be subject to inspection by the COMPANY representative either at the mill, shop, or other work sites. 5.1.3 Inspection at the mill, shop, or fabrication sites will not relieve the Contractor of the responsibility for furnishing welding materials that satisfy specification requirements. 5.1.4 Materials that do not conform to the requirements of this specification shall not be used. Non-conforming materials may be rejected at any time at no cost to COMPANY. Selection of Consumables 5.2.1 Consumables shall be in accordance with CPOC-GS-ST-0005 and shall conform to ANSI/AWS D1. 1 and shall have been approved by an international recognized certification body (e.g. DNV, LLOYD’s, etc.). 5.2.2 Welding consumables shall be selected to match or exceed the base metals toughness, yield strength and tensile strength of the base material. If classification of the structure is required, welding consumables shall conform to rules of the Classification Society. 5.2.3 Cellulosic electrodes are strictly forbidden for structural use. 5.2.4 Welds forming connections between steels of different grades of material shall develop the minimum specified tensile properties of the lower steel grades being joined, unless otherwise previously approved by the COMPANY. 5.2.5 Welds forming connections between steels of different grades of material shall develop the minimum specified notch impact properties at the lowest temperature of steel grades being joined, unless otherwise previously approved by the COMPANY. 5.2.6 For repair welding or multiple repairs, “extra low hydrogen” electrodes are required (i.e. maximum specified hydrogen content of 5 ml per 100 gram of weld metal). 5.2.7 For welding castings or forgings, “extra low hydrogen” electrodes are required (i.e. maximum specified hydrogen content of 5 ml per 100 gram of weld metal). 5.2.8 For SMAW process, coated electrodes shall have a minimum diameter of 3.15 mm on Structural Steels. 5.2.9 The number of different consumables shall be minimized. 5.2.10 All consumable batches (lots) used in production shall be tested (for SAW, all flux batches as well as wire batches are to be tested). Chemical analysis shall be performed 1 during this consumable qualification test, and all elements shall be tested. Consumable batches shall be qualified at the very early stage (welding qualification or advanced production test) in order to make sure of their quality at the very beginning of the production. The test shall be carried out on butt weld on the highest grade steel used for which the lots are used in production. One tensile test transverse to the weld and a set of three Charpy V notch in weld metal at the lowest temperature for which the OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 13 of 64 lots are used in production shall be carried out. Results shall meet the value of the highest grade steel for tensile test and the minimum requirement for the highest grade steel at test temperature for the Charpy test, according CPOC-GS-ST-0001. In addition, consumables for CTOD materials shall also be subjected to CTOD testing, 1 where applicable. 5.2.11 Manual shielded arc welding electrodes shall conform to AWS A5. 1 or A5 .5 specifications and be of low hydrogen classification E-XX1 5, E-XX1 6, and E-XX1 8 and be suitable for the position and conditions of their intended use. All passes shall be made with E-70XX or higher class electrodes. 5.2.12 Flux cored arc welding electrodes shall conform to AWS A5.20 specifications and be suitable for low hydrogen welding. The electrode classification shall be E70T- 1, E70T-5, or E70T-6, as applicable. 5.2.13 Flux and electrodes for submerged arc welding shall conform to AWS A5.17 specification. The materials shall be used in accordance with the manufacturer’s recommendations regarding temperature and humidity limitations. Flux shall be screened and filtered before reuse. SAW fluxes shall be of the fully basic type and shall not be used to make alloying additions to the weld metal. 5.2.14 Flux cored welding consumable shall have low hydrogen certified by batch basis. 5.3 1 Essential Variables 5.3.1 The following essential variables shall be used in addition to AWS D1.1, for qualification of welding procedures. Any deviation from these variables shall require a new weld procedure be qualified. All essential variable tolerances listed as percentage variations apply to the actual qualified mean values recorded for each pass: 1) An increase of more than 38 °C in the maximum interpass temperature. 2) An increase in heat input or an increase in volume of weld metal deposited per unit length of the weld, over that qualified. The increase may be measured by either of the following: a) Heat input (Joules/inch) = Voltage x Amperage x 60 / Travel Speed (inch/min.) b) Volume of Weld Metal = an increase in bead size or decrease in length of weld bead per unit length of electrode. 3) For impact testing and CTOD testing qualification welds made in 3G vertical progression will qualify for all positions only with respect to impact and CTOD provided the maximum electrode used in qualifying the vertical procedure is not exceeded in other positions and heat input allowed in any other position is within the range of heat input qualified by the vertical weld. 4) Where CTOD testing is to be qualified as a part of welding procedure, job thickness shall not exceed CTOD qualification Test thickness. 5) Where CTOD testing is to be qualified as a part of welding procedure, separate tests are required to qualify single and double-sided preparations where both are appropriate to the work. OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 14 of 64 5.3.2 For Welding procedures with impact / CTOD testing, heat inputs shall not exceed 3.5 kJ/mm for material grades 275 and higher. 5.3.3 Test pieces for welding procedure qualifications shall be in accordance with AWS D1.1 and this specification. Test pieces for procedure qualification of carbon steel, shall be selected from the higher range of carbon equivalents. For all types of steel, the carbon equivalent (CE and Pcm) shall be calculated base on product analysis. 1) When the carbon content is greater than 0.12 %, the following Carbon Equivalent formula, shall be applicable. 2) When the carbon content is 0.12 % or less, the following Carbon Equivalent formula, shall be applicable. Procedures shall be qualified for welding production materials with a CE or Pcm up to and including 0.02% higher than the qualification test material. Heat/ladle analysis may be used if approved by COMPANY when product analysis is not reported. Use of higher CE or Pcm steels will require a new welding procedure qualification. 5.3.4 Types of grooves and tolerances for drawing details and final fit-up of any welded joint shall conform to figure 3.4 of AWS D1.1. Joints which vary from these shall be referred to COMPANY for approval or correction. Root openings for single sided welds without backing shall be ≥ 1/16in. (1.6mm). 5.3.5 Root and capping passes during qualification, shall be made at a preheat temperature and heat input no higher than the lowest values specified for production welds. 5.3.6 Unless otherwise approved by COMPANY, interpass grinding shall not be used during qualification test welding. Grinding is considered an essential variable and must be used for field welding to the same extent. If used during procedure qualification, each welder shall have access to his own grinder, and each pass shall be ground as demonstrated on the qualification test. 5.3.7 A temper-bead sequence shall not be used during procedure qualification to deliberately improve heat affected zone hardness. The final welding procedure cap pass shall be placed along the side of the weld so as to overlap onto the base metal. Production welds qualified may be made with or without temper beads. CPOC 5.4 OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 15 of 64 Supply, Storage and Use 5.4.1 The minimum requirements for the care, storage and handling of consumables shall be according to the manufacturer’s requirements. Welding materials shall be handled, shipped, and stored in a manner that will prevent contamination by moisture, dirt, grease, oil or any other debris or other damage. The temperature and humidity storage conditions shall comply with the manufacturer’s recommendations. Electrodes and filler wires which show evidence of damage or deterioration and shielding gases which show signs of contamination shall not be used. Shielded metal arc welding electrodes shall be stored in drying ovens in accordance with AWS D1.1. A detailed storage and handling procedure shall be compiled by the Contractor and submitted to COMPANY for review/approval. 5.4.2 Welding materials shall be identifiable by means of their original colour coding or by factory labelling until the time of use. 5.4.3 Welding electrodes that have damaged flux, are not readily identifiable, or are of questionable acceptability, shall not be used. 5.4.4 Different grades of electrodes shall be stored separately. 5.4.5 Low hydrogen electrodes and fluxes shall be supplied in sealed moisture proof containers. The unopened containers shall be stored in a dry location based on Filler manufacturer’s recommendation with monitoring by Hygrometer or other means at all times. 5.4.6 Each heat, lot (or so called batch herein) of consumables shall be subject to inspection and approval by the Inspector. Mill test certificates from consumables manufacturers showing test results actually obtained on the said lot shall be submitted to the Inspector. 5.4.7 The lot and the level of testing are specified as per AWS A5.01-93 as follows: 1) Covered electrodes: class C5 2) Bare solid electrodes and rods: class S3 3) Flux cored electrodes and metal cored electrodes and rods: class T3 4) Flux for submerged arc welding: class F2 5.4.8 The level of testing shall be schedule I as a minimum. Additional testing (diffusible hydrogen test and/or moisture test shall be required as per attachment 2 of CPOC-GS-ST0001 for SAW flux when “specification A” is proposed. 5.4.9 For steel grades S355 and above (refer to CPOC-GS-ST-0001), SAW flux procurement, packing, storage and use shall conform to requirements of Attachment 2 of CPOC-GS-ST-0001. 5.4.10 Certificates of conformance are not acceptable. Batch testing of welding consumables is required from Contractor in combination with production test plan. 5.5 Drying Procedures and Use of Electrodes 5.5.1 As a general rule, welding electrodes shall be treated and used in accordance with recommendations of their manufacturers. In the absence of written recommendations from the manufacturers of consumables, the requirements of AWS D1.1 shall apply. 5.5.2 Prior to use, as a minimum, basic low hydrogen consumables shall be dried by baking. The baking temperature/time shall be that which is necessary to achieve minimum diffusible hydrogen content of less than 10ml/100g of weld metal. Electrodes shall be transferred to 1 OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 16 of 64 holding ovens and heated quivers as necessary. Any electrodes remaining unused at the end of a shift shall be returned to the store and re-baked before being re-issued. Returned electrodes must be suitably identified to distinguish them from virgin electrodes. 5.6 5.5.3 The permissible atmospheric exposure of low hydrogen electrodes shall be two hours max., unless shorter a time is required in AWS D1.1. Low hydrogen electrodes which have been in direct contact with water shall be definitely rejected and removed from the Site. 5.5.4 The Contractor’s consumable procedure for storing, handling, drying, flux recycling and traceability shall be approved by the Inspector before fabrication commences. Substitution of Materials The Contractor shall not make substitution of any material specified in the Contract Documents without the prior written approval of the COMPANY. 5.7 Material Inspection and Storage 5.7.1 Contractor shall inspect all materials delivered to site. The welding consumables shall be checked for compliance with delivery/packing lists, identification, quantity and damage. 5.7.2 Rejected welding consumables are to be quarantined in a separate location from the accepted material. 5.7.3 All welding consumables receipt, handling and storage shall be performed in accordance with the Contractor’s approved materials handling procedure. 6.0 QUALIFICATION OF WELDING PROCEDURE, PERSONNEL AND EQUIPMENT 6.1 General 6.1.1 Welding procedures, shall be qualified in accordance with AWS D1.1 and the requirements as stated in this specification. Previously qualified welding procedures, welder or welding operator qualification, witnessed by a third party certification agency such as ABS, Lloyds, BV or DNV may be accepted as regard to the requirements of present specification (for example, brand name and designation of consumables shall be clearly indicated in WPS and WPQR, and Mill certificate of base material used for qualification tests shall be included in the WPQR) and subject to prior review and approval of the COMPANY. However, production tests where required (see paragraph 8.7) shall always be maintained. In that case, the main weld of first tubular produced shall be subject to a full set of production tests as per paragraph 6.3.10 of this specification. 6.1.2 Qualification of a welding procedure shall be restricted to the Contractor and Site where the test weld was produced. However, in special cases, a welding procedure can be extended to other Sites from the Contractor when the said Contractor gives evidence to the satisfaction of the COMPANY that similar equipment and Quality Assurance system are used and that his welding personnel (welders and welding supervisors) is of similar competence and aware of the application of the said welding procedure. 6.1.3 A qualified welding procedure shall be used within the limitations of the essential variables set forth in ANSI / AWS D1.1 and following amendments. Refer also to variables specific to welding of tubular joints stated in Section 8.7.6 of this specification. Any change from specifications stated herein shall initiate a new procedure qualification test. CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 17 of 64 6.1.4 Standard welding procedures which are covered in AWS D1.1 as pre-qualified WPS ’s without any need for qualification tests, are not acceptable. 6.1.5 All structural welding shall be in accordance with AWS D1.1, Structural Welding Code – Steel. Unless otherwise specified, in this specification or on the design drawings, all welds shall be full penetration welds. 6.1.6 Acceptable methods of welding are SMAW, SAW, FCAW and GTAW processes. Gas metal arc welding with the short circuit transfer mode (GMAW-S) is normally not acceptable, however, the process may only be used with approval by the responsible COMPANY representative and will only be approved for specific applications. GMAW is not acceptable as the primary welding process, but may be considered for root passes if completely removed or remelted by subsequent welding methods. GMAW may be used for seal welding and for non-structural appurtenances with wall thicknesses 9.5 mm (0.375 in.) and less 6.1.7 Welding procedure for longitudinal welds, circular welds (if any) and repair welds shall be qualified as per ANSI / AWS D1.1 by means of visual examination (100 %), nondestructive testing (100 %) and mechanical tests. 6.1.8 Tack welding shall be qualified as part of the welding procedure that governs the connection. 6.1.9 If a procedure or welder produces excessive defects, the procedure and/or welder shall be re-qualified. Costs associated with the re-qualification shall be borne by the Contractor. 6.1.10 Permanent back-up bars shall not be used. 6.1.11 For gas shielded process (e.g. FCAW, GTAW, and GMAW), windshield protection shall be provided. 6.1.12 Should Post Weld Heat Treatment (PWHT) be required, Contractor shall completely define the method of application in the welding procedures submitted. Consideration shall be given to the possible reduction in material yield strengths resulting from any PWHT. PWHT shall only be performed at the direction of the COMPANY. 6.1.13 “Downhill” welding shall not be allowed, without prior written approval of the COMPANY. 6.1.14 Filler metals for welding, materials of different strengths and toughness, shall be required to develop the strength of the lesser and toughness of the greater requirement. 6.1.15 At least four (4) weeks prior to commencing welding work, the Contractor shall submit written welding procedures (WPS’s and PQR’s) and welding personnel qualifications for welders and all welding intended for use during fabrication, previously qualified or otherwise, to the COMPANY for approval. The documentation for each procedure shall be in accordance with Section 10 of this specification. 6.2 Material Groups for Welding Conditions Grouping of material qualities and pipe sizes may be made for certain welding conditions (e.g. minimum, maximum heat input) subject to prior approval of the COMPANY. In such a case, the following conditions shall apply to base materials: 6.2.1 Material grades with SMYS (Specified minimum yield Strength) greater than 355 MPa. CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 18 of 64 Any steel with a minimum specified YS in excess of 355 MPa, i.e. S420, S460 and S500 steel grades as defined by CPOC-GS-ST-0001 shall require separate welding procedure qualification test on the production material: 1) Per delivering mill 2) Per as-delivery condition 3) Per each steel grade 4) Per each steel quality (impact test requirements) The validity of such a welding procedure qualification is moreover limited to materials of the same grade as defined above considering the further restriction: 1) Carbon, Carbon Equivalent and Pcm of the test material is not less than 0.02%, 0.03 % and 0.02 % respectively, in comparison with the materials of the order 2) Welding consumables are considered as still acceptable in COMPANY’s opinion 6.2.2 Material grades with SMYS less than or equal to 355 MPa Welding procedure qualification tests is required for steels corresponding to group I as defined by AWS D1.1 , or any steels group II as defined by AWS D1.1, with SMYS less or equal to 355 MPa, or any steel combination as defined by AWS D1.1. The validity of such a welding procedure qualification is limited to materials of the same group or steel group combination as defined above, considering the further restriction: 1) Per delivering mill (group II only) 2) Per as-delivery condition (group II only) 3) Per each steel quality (impact test requirements) In addition, any welding procedure qualified as per above, will cover materials of the said group provided that: 1) Minimum Specified YS does not exceed the SMYS of the qualified material by more than 60 MPa 2) Carbon Content, Carbon Equivalent and Pcm of the test material is not less than 0.02 %, 0.03 % and 0.02 % respectively, in comparison with the materials of the order 3) Welding consumables are considered as still acceptable in COMPANY’s opinion 6.2.3 Unless otherwise agreed with the COMPANY, two weld repair types shall be qualified by tests: 1) One partial repair (minimum of 2/3 thickness repair) simulating a defect located on Fusion Line, and 2) One shallow cap repair with two weld passes minimum simulating a defect located at weld toe (e.g. undercut repair) Where welding from inside of pipe is not intended by the Manufacturer, nor practicable, nor accepted by the COMPANY, then a through thickness repair simulating a defect centered in Weld Metal axis shall also be required. 6.2.4 The following mechanical tests shall be carried out on each qualification test weld (main and repair): 1 CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 19 of 64 1) Two tensile tests transverse to the weld. The ultimate tensile strength shall meet the values shown in CPOC-GS-ST-0001 2) Two guided bend tests: one face-bend and one root-bend test, with weld reinforcement removed from both faces, shall be carried out for wall thickness of 12.7 mm and less. For wall thickness above 12.7 mm, these tests shall be replaced by two side bend tests Specimens shall be full thickness with a specimen width of 12.5 mm. The mandrel diameter for bending shall be as follows 1 a) 2 t max. for grade S 235 b) 3 t max. for grades S 275 and S 355 (t = thickness of test specimen). 3) Three CHARPY V-notch impact test specimens transverse to weld cut on the material surface in accordance with Figure 2 (notch in the Weld Metal axis, on the Fusion Line, at 2mm and at 5mm from Fusion Line). Each impact test shall include one set of three specimens (total of twelve specimens). 4) For tubulars in thickness above 50 mm, two additional sets shall be cut at weld root as shown on Figure 2. Locations of CHARPY V-notch test specimens in weld repairs shall be as shown on Figure 2. Impact tests shall be carried out at the same test temperature as that specified for the related base material quality. Impact test results shall meet the required absorbed energies stated in Table 5.3 of CPOC-GS-ST-0001. 5) One macrography/hardness test: a VICKERS hardness survey shall be conducted using a 5 kg load in accordance with Figure 1. No individual hardness value shall exceed 325 HV on the Weld Metal and HAZ. 6) Shallow cap repairs shall include only side bend tests and hardness test as detailed above. Type of specimens for welds on plate can be referred to paragraph 6.4.2 of this specification with the same of number of specimens as above. 6.3 Welding Procedure Specifications (WPS) 6.3.1 WPS shall be read in conjunction with CPOC-GS-ST-0002 and this specification. Each welding procedure shall be fully detailed in a Welding Procedure Specification (WPS) form previously approved by the COMPANY. 6.3.2 Four weeks prior to commencement of any welding, the Contractor shall submit to COMPANY a weld register (i.e. a detailed summary table) of all the WPS he intends to use, together with all the said WPS in their complete form. The weld register shall detail the characteristics and scope of use of each WPS. 1 OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 20 of 64 6.3.3 WPS shall be produced for production welds (i.e. main welds), repair welds of main welds and base materials, weld buttering, wide gaps, etc. 6.3.4 The minimum acceptable WPS shall include, at least, all items listed below: 1) The identification of base metals ( relevant Mill certificates to be valid for the applicable range) 2) The qualified range of base materials in terms of steel grade, thickness, CE and/or Pcm, diameter, etc. 3) The welding process 4) Design and dimensions of joint preparation, including tolerances 5) Welding position(s) 6) Direction of welding 7) Type, size, AWS classification, manufacturer and trade name of welding electrodes, filler wires, shielding fluxes and gases. Gas mixture compositions 8) Type, amperage and voltage range of welding current 9) Travel speed, heat input (in kJ/mm) and wire feed speed when applicable. Number and distribution of weld runs related to each electrode or filler wire, specially for capping 10) Stick-out length, when applicable 11) Thickness (or depth) of tack weld, specially when SAW is used 12) Mini preheating, min. and max. interpass temperature 13) Post-heating and Post-Weld Heat Treatment conditions, if any 14) Treatment to second side of weld including depth of backgouge / backgrind 15) The reference to the applicable Welding Procedure Qualification Record (WPQR). 6.3.5 There shall be no more than 3 WPQR to support a single WPS. 6.3.6 New WPS shall be issued first as “proposed WPS” (P. WPS), then as WPS “approved for construction” (AFC) and any WPS revision shall be issued with sequential numbers and date of issue. All forms shall have prior approval of the Inspector. 6.3.7 The approved WPS shall be posted permanently at the location where the welding is to be performed and readily available to each welder and welding operator 6.3.8 A procedure for repair of wide gaps shall be included. This procedure shall be in accordance with AWS D1. 1 and this Specification 6.3.9 When weld through primers are used during fabrication, they shall be included in the weld procedure qualification. During weld procedure qualification, the thickness of weld through primer shall be measured. Any increase in thickness of primer in production, shall necessitate re-qualification of the affected Procedure Qualification Record (PQR). 6.3.10 Each applicable WPS shall be qualified by tests prior to commencement of the work as directed by the ANSI / AWS D1.1, and the requirements of this specification OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC 6.4 Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 21 of 64 Welding Procedure Qualification Tests 6.4.1 All welding procedures shall be qualified in accordance with AWS D1.1 except as modified by this specification. In addition to applicable Code requirements, procedure qualification for fillet welds not qualified by full penetration butt welds, shall include a hardness test and meet the requirements of this specification. 6.4.2 Welding procedure qualification for plates and tubulars (except tubular nodes) 1) The essential variables as stated in paragraph 5.3 of this specification shall apply. 2) Type and number of tests are stated in paragraph 6.2.4 of this specification. a) Butt welds on plates and tubulars See sampling of test specimens in Figure 3 for plates and in Figure 4 for tubulars b) T or Y groove welds on plates See sampling of test specimens in Figure 5 c) Fillet W elds Fillet welds shall require separate qualification tests (groove welds cannot qualify for fillet welds). One test shall be made with minimum size single-pass fillet weld and another test weld shall be made with the minimum size multiple-pass fillet weld used in construction. When Fillet Welds are subject to Welding Procedure Qualification Test (see paragraphs 6.4.17 and 6.4.18 of this specification), the test weld shall be sampled for macrosection examination and hardness survey as follows: i) For plates and tubulars: sampling as per AWS D1.1, Table 4.4. ii) Testing procedures and standards of acceptance shall be as described in paragraph 6.4.22 of this specification. 6.4.3 The thickness ranges of material qualified by a certain welding procedure shall be as per table 6.1 below. Thicknesses are indicated in terms of Reference Thicknesses (T) as defined as follows: 1) In a butt connection the Reference Thickness is the thickness of the steel plate. 2) For butt welds at blended transitions between plates or tubulars of different thicknesses the Reference Thickness is that of the thinner part. 3) For welds not of straight butt configuration (e.g. stub to can welds or ring stiffener to can welds) the thickness of the abutting members (e.g. stub thickness or ring stiffener thickness) shall be the Reference Thickness. 4) In the particular case of weld between crown shims and jacket piles, the Reference Thickness shall be that of the jacket piles. 1 CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 22 of 64 Table 6.1 - Range of Thickness (T) Qualified for Complete or Partial Penetration Groove Welds and Fillet Welds Made on Plates and Pipes Tested WT (inches) Qualified WT (inches) 1/8”≤ T < 3/8” 1/8” to 1/2” 3/8”≤ T < 1” T/2 to 1.5T 1” ≤ T< 2” 3/4” to < 2” (less than 50mm) T > 2” 2“ (50mm) and above 1 Where the applicability of the WPS is based on fracture mechanics testing (e.g. CTOD) the upper thickness deviation shall not exceed the smaller of + 10 % and + 10 mm in regard to the tested thickness. 6.4.4 The OD ranges for welding procedure qualification of tubulars are as follows: 1) 2” ≤OD< 12” 2) 12” ≤OD< 24” 3) OD ≥ 24” Qualification on plate also qualifies for pipe 24” and over in diameter. Qualification on pipe 24” and over in diameter also qualifies for plate. 1 Qualification on pipe below 24” does not qualify for plate. 6.4.5 Joint Configuration Change from butt welds to T-joints and Tubular Joints, and vice versa. Single-V may qualify for double-V welds and vice versa, provided that there is no decrease in groove angle. Any change with respect to back gouging, back pass, temporary or permanent backing. 6.4.6 Groove design/Pass distribution As per AWS D1.1 and the following: 1) Any decrease in groove angle, root opening. Any increase in root face 2) Capping passes, hot pass(es) and back passes must be distributed as per the agreed WPS 3) A particular procedure must be developed and qualified by test for wide gap welds. CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 23 of 64 Maximum thickness of buttering qualification shall be 12 mm (refer to CPOC-GS-ST0002) and maximum weld deposited shall be as per paragraph 7.7.3 of this specification. 6.4.7 Welding process/Heat input Any change from one welding process(es) to another process(es) and any mixing of processes. Any change of heat input beyond ± 10 %. 6.4.8 Welding consumables Any change of specified consumable in trade name, classification, source of origin, size or combination. 6.4.9 Welding positions shall be as per limitations contained in AWS D1.1: 2000, Table 4.1, except that groove welds cannot qualify for fillet welds. 6.4.10 Welding direction A change shall be from vertical down to vertical up welding and vice-versa. 6.4.11 Orientation of tubular joints Any change between the following orientations: 1) Can fixed vertical, brace fixed inclined 2) Can fixed horizontal, brace fixed vertical 3) Can fixed horizontal, brace fixed horizontal 6.4.12 Stub to can angle of tubular joints Stub to can angle is defined as the angle between the centerlines of stub and can. Table 6.2 - Stub to Can Angles Stub to Can Angle of WPQT Angle Range Qualified α > 45° -0°;+90° 30° ≤ α ≤ 45° -0°;+120° α < 30° -0°;+130° 6.4.13 Preheating/interpass temperature Any change outside -0°C, +25°C from that of qualification test 1 CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 24 of 64 6.4.14 Post Weld Heat Treatment (PWHT) Change from Post Weld Heat Treatment to non-Post-Weld Heat Treatment and vice versa. Any change outside specified temperature range, soaking time and cooling/heating rates. 6.4.15 If joint fit-up tolerances in production welds exceed those permitted, written weld buttering instructions shall be developed by Contractor for COMPANY approval. These shall detail the complete base material preparation, welding, surface finishing, and inspection methods. Welding must comply with a COMPANY approved WPS. 6.4.16 AWS D1.1 limits on qualified thickness ranges, shall be followed except where it allows an unlimited maximum thickness. In those cases, a limit of 2T maximum shall be applied, where T is the wall thickness of the test coupon. 6.4.17 Pre-qualified welding procedures as defined in ANSI / AWS D1.1 may be used without qualification test subject to prior approval by the COMPANY However, such procedures shall meet the requirements of this specification and shall be restricted to members which simultaneously meet the following conditions: 1) Secondary Category Structural Members or Non-Structural members 2) Specified yield strength does not exceed 262 MPa (38,000 psi) 3) Base metal wall thickness is less than 19.05 mm (0.750 in.). 6.4.18 Fillet welds made by SMAW processes are not subject to welding procedure qualification test when base material involved complies with the following requirements all together: 1) Primary or Secondary Category structural members or Non-Structural members 2) Specified yield strength does not exceed 262 MPa (38,000 psi) 3) Base metal wall thickness is less than 25.4 mm (1 in.) 4) IIW Carbon equivalent does not exceed 0.40 % (ladle). Reference shall be made to weld and welding requirements contained in paragraph 7.9 and 7.10 of this specification. 6.4.19 The Welding Procedure Qualification Test shall be witnessed by the Inspector and carried out under actual or simulated conditions, based upon the proposed Welding Procedure Specification (WPS). 1) Selection of test base material Welding procedure qualifications shall be carried out on test coupons with their Carbon Equivalent (CE), Pcm and Carbon content, in the upper limits of the materials supplied and, anyway, as per requirements on chemistry as stated in paragraphs 6.2.1 and 6.2.2. CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 25 of 64 The chosen coupon shall be completely identified by Mill Certificate showing its ladle and product chemical composition and mechanical properties. 2) Type and number of tests The qualification of welding procedures shall be based upon visual inspection, nondestructive testing and mechanical testing. Type and number of tests shall be as specified in paragraph 6.2.4. Reference is made in this specification to paragraphs 6.4.2 and 6.4.23 for sampling of specimens and to paragraph 6.4.22 for testing procedures and standards of acceptance. 6.4.20 Welding on forgings and castings shall be qualified by special tests. Welding coupons shall be used. Test programme shall be submitted for COMPANY acceptance and may content complementary test than those defined hereafter as CTOD or fatigue tests. Tests programme shall be driven by calculation note and criticality of structure 6.4.21 Acceptance Criteria for Welding Procedure Qualification Tests The completed weld shall be evaluated by the following in accordance with the acceptance criteria of AWS D1.1 and this specification: 1) Visual inspection 2) Radiography (ultrasonic examination when specified by COMPANY 3) Mechanical tests per AWS D1. 1 and this specification 6.4.22 Mechanical Testing Requirements The additional requirements described below will supplement AWS D1.1 requirement. Mechanical testing shall be carried out by a COMPANY approved testing laboratory and witnessed by COMPANY representative. 1) Hardness Test For all weld procedures, the maximum hardness shall be determined using Vickers hardness tests (ASTM E92). The test load shall be less than or equal to 5 kg. Maximum acceptable hardness shall be 325 HV5. Hardness tests shall be carried out as shown in Figure 1. If any individual hardness value exceeds the limit specified, further hardness readings shall be taken at the same location, to check for consistency and confirm the presence of high unacceptable hardness. If it is proven to be unacceptable hardness, the welding procedure needs to be modified and re-qualified. One weld area sample (including weld, HAZ, and parent metal) shall be ground, polished, and etched with a suitable etchant so as to clearly reveal the weld metal, fusion line, and HAZ microstructures under the microscope. Rockwell and Brinell hardness tests are not acceptable. Conversions from Rockwell or Brinell hardness tests are not acceptable. 1 OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 26 of 64 A photograph or photo macrograph of 1X to 5X magnification clearly showing the hardness indentations, HAZ, and the weld zone shall be included in the test results. 1 2) Charpy Impact Test Unless otherwise specified, butt joint welding procedure qualification tests for material S355 and above shall also include Charpy V notch impact testing in accordance with ASTM A370. Impact testing shall cover Weld metal, Fusion Line and HAZ. Minimum acceptable average values for all weld procedures shall be 27J for 35 Ksi Steel, 36J for 50 Ksi Steel and 45J for 60 Ksi steel at minus 20 °C for all thickness. The location of weld, fusion line and HAZ Charpy testing specimens shall be in accordance with Figure 2. If two or more welding consumables or welding processes are used for the same joint, impact testing is required for the related regions of the welded joint 1 1 3) Crack Tip Opening Displacement Tests (CTOD) a) CTOD testing of welds, is required as a part of Welding procedure qualification tests, when the job thickness is 50mm and above for material S355 and above. The CTOD tests shall be carried out using maximum thickness encountered during fabrication as per the essential variables of AWS D1.1 and this specification. 1 b) All costs associated with the test program shall be borne by the Contractor c) The test welds shall be tested in the as-welded condition by CTOD testing to BS 7448 Part 2 in the weld. d) Test plates shall be of dimension 1.5m x 0.35m minimum and weld preparation shall be such that the joint contains one square edge. e) An all weld metal tensile test shall be conducted as a part of welding procedure qualification test and actual weld yield stress shall be used for computing CTOD. f) For each test the least of the values of δc, δu or δm shall be greater than or equal to 0.25 mm when tested at 0°C. Where welds are required to achieve values greater than 0.25 mm, the required values will be indicated on the relevant drawing. Lower values require approval by COMPANY on a case by case basis. g) All CTOD test results together with CTOD record traces including all failures shall be reported and submitted to COMPANY for review. h) Where the specified values cannot be achieved, the Contractor may submit for review, after consulting with COMPANY, justification of the lower values achieved using the “fitness for purpose criteria” of BS 7910. i) Material grade S355 and above shall be tested to API RP 2Z in the mill, Testing shall be conducted on the thickest plate supplied. j) Test welds for each welding process to be used in production, shall be performed by the Contractor. Heat inputs used shall be representative of the highest to be used in production. Mechanical testing shall consist of three CTOD tests from each type of weld metal. Testing will be to BS 7448 Part 2 using the validation criteria specified in EEMUA 158. 1 CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 27 of 64 k) The steel supplied used for the qualification tests, shall be representative of the steel supplied in the bulk order in terms of chemistry, manufacturing route and heat treatment. 6.4.23 Welding procedure qualification for T, K, Y tubular node joints 1) Qualification tests shall be as per AWS D1.1 Latest edition with the modifications stated hereafter. Qualification tests shall include both a tubular butt weld in 6 GR position with a 1/2 V bevel design and a tubular mock-up. Limitations on qualified welding procedures shall be as per paragraphs 6.4.3 through 6.4.14 of present specification, especially regarding brace thickness and diameter ranges, orientation of tubular joints and brace to can angle. Testing of the butt weld shall be made as per paragraph 6.4.2 for a regular butt weld including impact tests. Testing of the tubular mock-up shall include 100 % UT and macrographies as required by AWS D1.1, each being subject to a hardness survey. 2) Brace to can angles less than 30° shall require a separate qualification test at the minimum angle of the work (refer to AWS D1.1 Latest edition). 6.5 Qualification of Welding Personnel 6.5.1 Welders and Welding Operators shall be qualified in accordance with AWS D1.1 except as modified by this specification. This qualification is at the Contractor’s expense. Qualification on production welds shall not be allowed. 6.5.2 Qualification or re-qualification of welders by tests shall be required at the start of construction or fabrication on each Site, unless otherwise previously agreed with the COMPANY. 6.5.3 All welders working at construction yard shall be qualified in 6 G or 6 GR position, as a minimum. The Contractor shall ensure that welders and welding operators of any subcontractor are qualified in accordance with this specification. All tubular joints and critical welds, such as those on lifting lugs, shall be made by welders qualified for position 6GR. 6.5.4 Welder qualification tests shall be witnessed by the Inspector. When a qualification test is performed between pipe to pipe without back pass, pipe ends shall be closed during performance of test. 6.5.5 In addition to the tests required by AWS D1.1 and this specification, welder qualification for any portion of the test made by GMAW-S (short circuit metal transfer) shall include guided bend specimens. Qualification of GMAW-S by radiography only, is not permitted. 6.5.6 Manual welders and welding operators who have successfully carried out a Welding Procedure Qualification Test shall be considered as qualified for the said procedure. 6.5.7 Contractor may submit evidence of previous qualification to COMPANY in accordance with the minimum requirements of this specification. All previously qualified welders and welding operators shall comply with the standard period of effectiveness covered in AWS D1.1. For welders without prior experience on COMPANY work, re-qualification and witnessing by COMPANY representative may be required. CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 28 of 64 6.5.8 Welder Qualification Register and Welder/Welding operator performance qualifications shall be made available for review and approved by COMPANY. Qualifications shall be reendorsed every 6 months by the Contractor. 6.5.9 Welder and welding operator qualification tests shall be conducted prior to the performance of any production welding. Qualification test records shall be submitted to the COMPANY for approval before the welder is permitted to work on the project. 6.5.10 The decision of the COMPANY regarding the qualification of any welder shall be final. The COMPANY retains the right to require re-testing of any welder or welding operator at anytime and be at Contractor’s expense. 6.5.11 Welder’s qualification test record specifying applicable WPS, essential variables and providing the welder’s identification symbol. 6.5.12 Each qualified welder shall be assigned an identification symbol, and a record shall be kept of these symbols by the Contractor. Two (2) copies of the symbol record shall be submitted to the COMPANY. 6.5.13 The Contractor shall implement a system to monitor welders’ and welding operators’ performance. Any welder or welding operators whose weld reject rate exceeds the maximum limit of 3% linear length per week, based on radiography and/or ultrasonic, shall be removed until retrained and re-qualified. Re-testing shall be limited to two (2) re-tests. The welding performance records shall be submitted to COMPANY on a weekly basis. 6.5.14 Qualified welders and welding operators shall be subject to additional training and/or requalification test when the quality of their work, during fabrication, appears to be repeatedly defective. The Inspector reserves the right to disqualify a welder. 6.5.15 Repairs are permitted during qualification test provided that they are of small extent and infrequent. Numerous repairs shall be considered as sufficient cause for rejection of the welder. The time spent for performance of the weldment should be comparable to regular production conditions. 6.5.16 Identification of welders The Contractor shall assign a specific identification symbol or number to each qualified welder. It shall be the duty of each welder to mark each weld on which he works. In the event that a welder leaves the project his symbol or number shall be cancelled, thereby ensuring that it is not re-used for any other welder. Each qualified welder shall carry a badge with photograph, identification number, work qualification and date qualified. 6.5.17 Welder Qualification for T, K, Y tubular joints 1) To be as per 6 GR of AWS D1.1. However, the test pipe shall be min. 8” OD and 12.7 mm WT, and the restriction ring shall be min. 12” wide. 2) Testing to be performed: Visual inspection, full RT and/or side bend tests cut at 3, 6, 9 and 12 o’clock position, at COMPANY’s option. 6.5.18 Visual examination and Non-Destructive Testing All test welds to be 100 % visually examined and 100 % inspected by ultrasonics (or radiography, when applicable) before any mechanical specimen is removed. 6.5.19 Mechanical testing for WPQ According to ANSI / AWS D1.1 for all kinds of welds, including fillet welds. 1 CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 29 of 64 6.5.20 Testing procedures and standards of acceptance Preparation of specimens, testing procedures and standards of acceptance shall be as follows: 1) Mechanical tests (other than macrographs): as per ANSI / AWS D1.1 2) Macrographs (when required): as per AWS D1.1 3) Visual inspection and non-destructive testing: as per Section 8 of this specification. If one of the test joints does not meet the requirements, the welder or welding operator may carry out at COMPANY’s discretion two new test joints of the same type as the rejected one. If both these joints meet the specification requirements the test will be considered satisfactory. If not the test the joints will be considered fail. A welder or welding operator so failed shall not be permitted to retest until he has completed a period of retraining of one week minimum. 6.5.21 Welder Qualification Record. A record of the results of each qualification test weld shall be jointly signed by the Contractor and the Inspector. The record shall indicate the symbol or number given to the welder for identification of his work, as stated in paragraph 6.5.16 above of this specification. 6.5.22 List of qualified welding personnel A list of qualified welders and welding operators shall be established by the Contractor and furnished to the Inspector before the beginning of fabrication. The minimum written information included in this list shall be: 1) Contractor (name and address) 2) Name of each qualified welder or welding operator 3) Photograph 4) Date and place of birth 5) Symbol used by each welder or welding operator 6) Date of qualification 7) Type and extent of qualification obtained by each welder or welding operator (position, welding process, etc.) This list shall be kept up to date by the Contractor and made available to the Inspector. 6.6 Welding Equipment 6.6.1 Condition of Equipment 1) Welding machines shall have adequate controls for making the current adjustments necessary for all welding requirements. Sufficient meters, portable or permanent shall be provided to calibrate machines and to regulate voltage and amperage as needed. All welding machines shall be calibrated prior to commencement of fabrication and calibration certificates shall be available for audits. Certification shall be valid for 6- month periods, or as per manufacturer’s recommendation. 2) To ensure the production of sound welds, welding machines, line-up clamps, beveling machines, cutting torches, tools, supplies and other used equipment shall be kept in good mechanical condition. CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 30 of 64 3) Adequate number of suitable meters, portable or permanent types shall be provided for calibration of the machines and to regulate amperage and voltage as needed. 6.6.2 Grounding of Equipment Grounding of welding machines shall be in accordance with API RP 2A Section 12.7, with the following additional requirements: 1) Each welding machine shall be individually grounded to the platform or portion of the platform being welded to prevent underwater corrosion damage. If this is not possible, the welding machine should be insulated from the barge and an adequately sized cable shall be used to ground the structure to the welding machine. 2) Earth cable shall at least be of equivalent capacity to the work cable. The welding cable shall be completely insulated to prevent stray currents. 3) When working over water such as offshore installation, no welding machine shall be grounded to floating equipment during welding work on the structure and cables shall not be allowed to hang in water. 4) Grounding several welding machines by a common ground cable which connects to the structure being welded will control stray currents if adequately sized and properly insulated from the barge or vessel where the welding machines are on. 5) Lugs for grounding cable shall be tightly secured to grounding plates: a) The lug contact should be thoroughly cleaned to bare metal b) One or more cables connected in parallel may be used to meet minimum cross section requirements 6) Ground clamps for tubulars shall be designed to prevent arcing. The ground clamp connection shall be steel. 7) Ground straps with an adequate cross section for carrying maximum possible short circuit current shall be installed between jacket and pile or conductor while making splices 7.0 PRODUCTION WELDING 7.1 General Requirements 7.1.1 All weld bevels shall be prepared by thermal cutting and grinding or by machining to a smooth, bright uniform surface. Surfaces inaccessible to grinding shall be abrasive blasted to near white metal with subsequent removal of all abrasive and residue near the weld groove. 7.1.2 Design of butt weld groove preparations and assembly tolerances shall be in accordance with AWS D1.1 and the approved welding procedure specification/drawings. For single sided full penetration SMAW welds, the root opening shall not be less than 3mm and not greater than 5mm. 7.1.3 Seal welding and welding of temporary attachments (including scaffolding supports and tie-downs) shall be performed in accordance with the approved welding procedures. 7.1.4 Welding shall proceed in a manner that minimizes residual stresses or distortions. The finished structure shall be as free from distortion as possible. CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 31 of 64 The Contractor shall be responsible for preventing or correcting distortion and for maintaining alignment within the tolerances stated in this specification. If excessive distortion becomes evident, corrective methods shall be applied based on COMPANY approved procedures. 7.1.5 All single-vee (‘V’) and single bevel butt welds shall be welded from both sides where 1 access permits. 7.1.6 When more than one weld pass is deposited on a joint, each pass shall be thoroughly cleaned by wire brushing and chipping before the next pass is applied 7.1.7 Welds shall not be quenched or cooled other than by contact with the natural atmosphere. Welds shall be protected from rapid cooling caused by rain, wind, or other inclement weather. 7.1.8 Surfaces of metal to be welded shall be free of fins, tears, cracks, loose scale, slag, rust, oil, paint, and other defects or contaminants that would adversely affect the quality or strength of the weld. 7.1.9 Welded areas shall be made clear of grease, spatter, flux and slag prior to application of protective coatings. 7.1.10 Permissible atmospheric exposure time limits for low hydrogen shielded metal arc welding electrodes shall be as set out in AWS D1.1, Table 5.1 Column A. Alternate extended exposure time periods, whether established by test or not, shall not be allowed. 7.1.11 All welded joints to be subsequently covered by an abutting member weld shall be accepted by NDE prior to fit-up or welding of the covering member. All plate butt welds that will be subsequently covered by an abutting weld shall be ground smooth on the attachment surface for a minimum distance of 50 mm either side of the intended attachment. A gradual transition shall exist between the ground and unground areas of welded joint. 7.1.12 Welding may not be performed when, in COMPANY inspector’s judgment, the quality of the completed weld would be impaired by the prevailing weather conditions. These conditions include, but are not limited to, airborne moisture, blowing rains, or high winds. Detailed plans shall be established to provide the welder and weld area with protection during periods of inclement weather and/or excessive wind conditions. 7.1.13 Production welding may commence when qualified welding procedures and welders as well as welding repair procedures and inspection procedures have been approved by the Inspector. 7.1.14 Conditions of welding (preparation for welding, types and sizes of electrodes, current amperages and voltages used, preheating requirements, etc.) shall be the same for production welding as those defined in the applicable qualified welding procedures. 7.1.15 Adequate precautions shall be taken and suitable equipment shall be available on Site in order to protect the weld areas and welders from adverse weather conditions (rain, wind, snow, etc.) at the time of welding. The shielding of the welding sites shall be approved by the Inspector prior to welding. 7.1.16 Welding shall not be done on wet weld areas. Wet weld surfaces shall be thoroughly dried by preheating. CPOC 7.1.17 OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 32 of 64 Welding shall be stopped when the temperature of base metal is less than -10 °C. Between -10 °C and +5 °C, the base metal shall be preheated to an approved temperature before welding starts. 7.1.18 The Contractor shall provide the COMPANY, on a weekly basis, with the defect rate per each welding process used and each NDT method (RT and UT), as well as the subsequent cumulative defect rates for the same. 7.1.19 The Contractor shall develop the following documents in due time: 1) Weld maps 2) Welding sequences for main or critical component/construction 7.1.20 Use of temporary or permanent backing strip or inserts shall not be permitted, unless specifically agreed with the COMPANY and, subsequently, properly qualified by test. 7.2 Welding Processes 7.2.1 Only manual Shielded Metal Arc Welding (SMAW) and automatic Submerged Arc Welding (SAW) processes shall normally be used. The welding process for longitudinal seams and circular welds (if any) shall be confined to the automatic Submerged Arc Welding (SAW) process. 7.2.2 Semi-automatic Gas Metal Arc Welding (GMAW) shall not be permitted for any structural categories even for tack welding excepted when totally removed with SAW process on X bevels. 7.2.3 Automatic Gas Metal Arc Welding (GMAW) shall be subject to COMPANY approval on a case to case basis. Gas Metal Arc Welding (GMAW) process may be used for tackwelding only provided that the weld is completely remelted by the Submerged Arc Welding process. 7.2.4 Flux-cored wire (i.e. FCAW-GS) shall be subject to COMPANY approval on a case to case basis. Flux Cored Arc Welding process without shielding gas (i.e. FCAW-SS) may be approved (according to member Category) provided that the Contractor gives evidence of long successful practice of the process in previous similar jobs to the satisfaction of the COMPANY. 7.2.5 Only Extra Low Hydrogen processes (max. 5 ml H2/100 g) shall be used for welding and tack welding of Special and Primary Category members or materials having specified YS above 262 MPa (38,000 psi). The same requirement shall apply for any welding on castings and forgings. 7.2.6 For Second Category members and Non-Structural members, welding processes other than Extra Low Hydrogen processes may be used, subject to prior approval by COMPANY, for materials having specified YS up to 262 MPa together with thickness up to 12.70 mm (0.500”). 7.2.7 The number of different welding processes shall be minimized. 7.2.8 Different welding consumables qualities (basic extra low, basic low,) in a same type of consumables shall be avoided. 7.2.9 Weld repair shall be carried out by SAW process or manual Shielded Metal Arc Welding (SMAW) process using extra-low hydrogen electrodes (i.e. max. specified diffusible hydrogen content of 5 ml per 100 g of weld metal). 1 CPOC 7.3 7.4 OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 33 of 64 Base Metal Preparation 7.3.1 Surfaces to be welded shall be visually examined and must be cleaned to bright metal for a distance of not less than 12.5 mm from the edge of the weld grooves. All surface finish paints, including weldable primers, shall be removed from the weld groove when welding pre-painted materials. 7.3.2 Welding through “weldable primer” is acceptable provided the weld procedure used is qualified using the specific thickness and type of primer and provided the contract documents allow the use of weldable primers. Cutting and Edge Preparation 7.4.1 All sheared or gas cut edges shall be ground and visually examined for laminations, cracks, and other defects. Sharp edges shall be removed by grinding. 7.4.2 For fabricated beams, all web and flange plates shall be cut such that the principle rolling direction of the plate lies along the longitudinal axis of the finished plate girder. 7.4.3 Trimming tubular braces in-situ for closed root openings is not acceptable without specific approval by COMPANY. 7.4.4 Tubular ends Tubular bevels will be defined by the Contractor in compliance with the approved WPS. When tubulars are intended to be butt welded to other tubulars of smaller wall thickness in further fabrication, a taper of 1 to 4 shall be made to allow a proper fitting. 7.5 7.4.5 Surfaces and edges to be welded shall be smooth, uniform and free from fins, tears, cracks, laminations or other defects which could adversely affect the quality and strength of the weld. 7.4.6 The surface of chord members to be full penetration welded for T, K or Y joint (including temporary or permanent attachments) such as tubular joints, padeyes, supports, etc., shall be ultrasonic (UT) inspected prior to welding for incoming members with thickness greater than 25 mm. 7.4.7 The chord of tubular joint shall be properly rotated to avoid welding on tubular seams or areas containing lamellar discontinuities. 7.4.8 Plates with lamination found during cutting, forming or welding shall be examined by Ultrasonics Test (UT). 7.4.9 Any welding repair to be made on base material or beveled shall be subject to qualification test. Welding Sequences 7.5.1 The sequences for assembling, joining and welding the various parts of the structures shall be planned in order to minimize distortion, warpage, shrinkage and accumulations of residual joint stresses in each part of the structures (see para. 8.6 of this specification). 7.5.2 Joints expected to have significant shrinkage should usually be welded before joints expected to have lesser shrinkage. They should also be welded with as little restraint as possible. 7.5.3 In making welds under conditions of severe shrinkage/restraint, the welding shall be carried out continuous to completion or to a point that will insure freedom from cracking OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 34 of 64 before the joint is allowed to cool below the minimum specified preheat and interpass temperatures. 7.5.4 7.6 The Contractor shall provide and exert all necessary supervision to ensure that the planned sequences are observed. Tack Welds 7.6.1 All tack welds, originally performed to hold members in alignment and later incorporated into the completed weld, shall be carried out in the same conditions as the root pass of the applicable qualified welding procedure and shall be performed by qualified welders. 7.6.2 These welds shall be subject to all applicable structural welding requirements in this specification. 7.6.3 Tack welds shall be of sufficient cross-section and length to avoid cracks, especially on High and Extra High Strength Steels materials (i.e. minimum specified YS above 295 MPa). Tack welds shall be of a minimum length of: 1) Three times the plate thickness or 40 mm, whichever is the lesser, for steels with YS up to 295 MPa 2) Four times the plate thickness or 75 mm, whichever is the lesser, for steels with YS above 295 MPa. 7.7 7.6.4 Prior to continuation of welding, the “tack” weld shall be ground to a feather edge to permit acceptable weld metal tie-in. Tack welds which form part of the complete weld shall be ground to a feather edge and completely fused with the root run. 7.6.5 Cracked tack welds shall be completely removed and shall not be incorporated into the finished weld. 7.6.6 Tack welds shall have the same preheat requirements as the root pass of the appropriate structural welding procedure. Correction of Unacceptable Fit-ups 7.7.1 Buttered layers on removed branch members shall be ground to the desired profile and shall be subject to 100% visual, magnetic particle examination and ultrasonic examination prior to refitting into the structure. 7.7.2 Correction of excessive root gaps by in-situ buttering is acceptable provided the gap is greater than or equal to 6.4 mm. A COMPANY approved buttering procedure is required. 7.7.3 Any in-situ buttering shall require specific approval by COMPANY. The maximum weld buttered deposit thickness shall be limited to 9.5 mm unless approved otherwise by COMPANY. 7.7.4 Out-of position brace buttering shall require COMPANY approval. 7.7.5 Whenever practicable, clamps, magnets, holding devices, etc. shall be used to avoid tack welding in assembling structural members. In fit-ups where clamps cannot be used, spacer strips will be employed to ensure the correct root gap spacing prior to tack welding. Spacer strips shall not be welded into the joint. 7.7.6 When misalignment between faces of parallel members of equal thickness not indicated on drawings exceeding 10 % of the thickness, nor 3 mm shall be corrected to improve the 1 OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 35 of 64 misalignment. The correction shall be carried out using adequate mechanical means. Heating shall not be applied unless specifically approved by the Inspector. The procedure and the maximum acceptable temperature shall be as stated in paragraph 7.19 of CPOCGS-ST-0002. 7.7.7 The weld contour employing such a manner that the mean slope through the weld zone does not exceed 1:4 shall be opted to ensure a smooth transition between the faces with the offset of the thickness of abutting members exceeding maximum permitted offset, measured on any of the two faces of assembly: 1) 3 mm when thinner member is not in excess of 12.7 mm (1/2”) 2) 4 mm when thinner member exceeds 12.7 mm (1/2”) up to 25.4 mm (1”) 3) 5 mm when thinner member exceeds 25.4 mm (1”) Outside the above limits, the thicker member shall be tapered by machining or grinding to a slope of not less than 1:4. 7.8 7.9 Weld Identification and Marking 7.8.1 Prior to fabrication, the Contractor shall establish an identification system for qualified welders and welding operators and a comprehensive numbering system that provides unique identification of each weld and the welder(s) or welding operator(s) who performed the welding. 7.8.2 The numbering system shall be used for identification purposes at each weld, on all shop drawings, and for indexing all NDT inspection reports and repairs. The identification system shall be subject to review and approval by COMPANY. During fabrication, the system shall be subject to audits. 7.8.3 Where the welders are being tested, they shall permanently mark with paint stick or low stress metal stamp each weld with his identifying mark. Tubular Splices 7.9.1 Splices shall be full penetration single-vee (‘V’) or double-vee butt joints welded from both sides in accordance with the relevant welding procedure. 7.9.2 Butt welds in jacket legs, piles, and conductor pipes (made in the fabrication yard) shall be backgouged and welded from both sides. Welding back-up rings shall not be used for butt welded joints of structural tubular members. In joints where welding must be done from only one side, the members shall be carefully contour-bevelled and fitted to achieve complete weld penetration in accordance with the joint geometry and configuration set forth in Figure 5.3 and Table 5.5 of AWS D1.1. 7.9.3 No two circumferential seams shall be located closer than one pipe diameter or 900 mm whichever is less. 7.9.4 There shall be not more than two girth welds in any three (3) metres interval of pipe. 7.9.5 Longitudinal seams shall be radially offset by a minimum 90 degrees wherever possible and shall not less than 30 degrees without prior approval from COMPANY. 7.9.6 Longitudinal seams in adjacent cans shall be separated from circumferential weld at least 250 mm. 7.9.7 Splices in piles shall have a minimum distance between girth welds of twice pipe diameters or 2 metres whichever is less. CPOC 7.10 OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 36 of 64 Beam Splices 7.10.1 All splices shall be made with full penetration butt welds and shall be made to produce members whose straightness equals that of uncut member. 7.10.2 Web of all plate girders shall be full penetration welded to flanges of plate girders unless noted otherwise on the structural drawings. 7.10.3 Welded field splices should be arranged to minimise overhead welding. 7.10.4 Where strength welds are required by the drawings, or otherwise, to extend only partially around a member or plate joint, a 1/8 in. (3 mm) fillet seal weld shall be deposited continuously throughout the remaining distance around the member or plate. 7.10.5 COMPANY places special emphasis on the complete seal welding of all intersections (where there is no strength welds) between steel members of special note are the beam-todeck plate and beam-to-beam intersections on the superstructure. 7.10.6 Splices for welded plate girders shall not be located to each other closer than twice the girder depth or one metre whichever is smaller. 7.10.7 Splices for beams shall not be within L/8 from the supports or at the midspan (L/4), where L is the beam span between two supports. Splices for cantilever beams shall be located closer to free end rather than to support. 7.10.8 Splices between sections of beam (i.e. rolled or built-up sections) shall be made in a single transverse plane (i.e. weld flanges and web in the same plane). The design of weld grooves shall result in a continuous and full penetration weld over the complete crosssection. 7.11 Welded Connections 7.11.1 All butt welds shall be double sided welds, unless specifically approved by COMPANY on Approved For Construction (AFC) drawings. In case of back pass, the root weld shall be ground or gouged and ground to sound metal before welding on that side. This shall also be mandatory for circular welds in tubulars with OD ≥ 26”. 7.11.2 Due consideration shall be paid to welds subject to cyclic/fatigue stresses during service. Supporting structure for rotating machinery of power in excess of 100 kW (unless otherwise agreed) or for vibration inducing machinery such as diesel engines or reciprocating compressors irrespective of their power shall be considered as fatigue sensitive structure with respect to weld design, performance and inspection. Weld profiling by grinding may be deemed necessary. 7.12 Fillet and Seal Welds 7.12.1 All faying surfaces, including those between deck plate and its supporting structural members, shall be seal welded against corrosion by continuous fillet welds with a minimum of 1/8 in. (3mm) fillet seal weld in all areas where strength welds are not required. 7.12.2 All fillet welds made with stick electrodes shall include two passes minimum on Special and Primary Category members. Filled welds may be used only where shown on the design drawings. OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 37 of 64 7.12.3 Any surface inaccessible to coating but requiring coating shall be sealed by seal welds or by “boxing in” with steel plate. All “boxing in” designed by Contractor shall require prior approval from COMPANY. 7.12.4 All welds including fillet welds shall be continuous, unless otherwise specifically agreed with the COMPANY. Minimum size of fillet welds shall be as per Table 7.1, always providing that the minimum throat (a = 0.7 L) is met. 7.12.5 Seal welds shall be subject to Welding Procedure Qualification tests according to the same requirements as those for fillet welds. Table 7.1 - Minimum Size of Fillet Welds Minimum Thickness/Throat(mm) Material Thickness t (mm) Minimum Leg Size of Fillet Weld2) (mm) t ≤ 12 51) 3.51) 12 < t ≤ 20 6 4.2 t > 20 8 5.7 Notes: 1) Minimum leg size shall be 6mm with minimum throat of 4.2mm for cyclically loaded structure 2) This leg size applies provided that the stated minimum weld throat “a” is met (see paragraph 7.12.4) 7.13 Stiffeners and Padeyes 7.13.1 Stiffeners shall be full penetration welded to top and bottom flanges and fillet welded to webs unless otherwise noted on the Structural Drawings. 7.13.2 Stiffeners shall be accurately located and neatly fit between flanges of beams or girders when full surface contact is required. The ends of stiffeners shall be milled or smoothly ground to conform to the geometry of the member to which it is being attached or it shall be bevelled in such a manner as to assure 100 percent fusion in the root of the attachment weld, as dictated by the drawings. 7.13.3 Lack of fusion, incomplete penetration and undercut are not acceptable in welds of padeyes or components subject to concentrated lifting loads (e.g. hooking parts of lifting devices and accessories) 7.14 Preheating and Interpass Temperature Preheating and interpass temperature shall comply with the recommendations defined in ANSI / AWS D1.1 and the following requirements: 1) Preheating shall be carried out by electrical resistance or induction equipment or with gas burners specifically made and shaped for this type of operation. Torches for flame cutting or gouging shall not be used for preheating purposes. OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 38 of 64 2) When the ambient temperature in the immediate vicinity of the weld is below + 5°C the weld area shall be preheated to 20°C minimum and this temperature shall be maintained during tacking and welding (refer also to paragraph 7.1.17). 3) Preheat and interpass temperatures must be sufficient to prevent cracking formation. Preheat temperature above the specified minimum as stated in ANSI / AWS D1. 1 may be required for highly restrained welds. In joints involving combination of base metals, preheat shall be as specified for the higher strength steel and thickest material being welded. The interpass temperature shall not exceed the maximum temperature allowed in any change outside -0°C, + 25°C from that of qualification test and is restricted to 250°C max. 4) The specified preheating temperature shall be reached throughout the plate wall thickness over a distance equal to the thickness of the part being welded, but not less than 76 mm (3”) in all directions from the weld. 5) Preheating when specified shall be applied before tack-welding and shall not exceed the maximum allowed as point (3) above. If the interpass temperature falls below the required preheat temperature at any time during production, then welding must be halted until the correct preheat has been re-established. 6) The temperature measurement for preheating and interpass temperature may be by thermocouples, temperature indicating crayons or contact pyrometers or a combination of these methods as may be appropriate for the type of joint being heated and method of heating. 7.15 Weld Profile 7.15.1 All T-K-Y welds in fatigue sensitive areas will be noted on the design drawings. The weld surface profile shall be prepared and tested in accordance with AWS D1.1, Paragraph C2.20.6.6. 7.16 Arc Strikes 7.16.1 Arc strikes outside the weld groove area are not allowed. Arc strikes outside the weld groove area shall be removed by grinding. All indications of cracking shall be subject to grinding and re-inspection to insure complete removal. 7.16.2 Hard spots resulting from accidental stray arcing shall be removed by grinding. On High Strength Steels (i.e. specified YS above 295 MPa), the ground areas shall then be inspected by MPI or LPI. 7.17 Weld Interruption 7.17.1 Weld metal deposition may be interrupted (i.e. stopped for a period greater than that necessary to de-slag, grind or change electrode/wire) only under one of the following conditions: 1) For welds where electrical preheating is maintained, an indefinite interruption will be permitted subsequent to completion of the root and first fill. 2) For welds where no preheating is required, or where preheating cannot be maintained, an indefinite interruption will be permitted when the throat thickness of the partially completed weld is at least 10mm or after deposit reaches 1/3 thickness of the weld.. With the approval of COMPANY, this restriction may be waived for assemblies where stresses can be shown to induce low ligament stresses. Before welding is recommenced, the weld involved shall be fully inspected by MPI. This MPI may be waived in the case of root passes where the welding procedure involves complete re- CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 39 of 64 melting of the root pass by SAW or removal of the root pass by subsequent back gouging. 3) Welding may be interrupted after deposit reaches 1/3 thickness of the weld or more than 10mm throat thickness of weld. When welding is interrupted before deposit reaches 1/3 of the weld thickness, preheating may be waived provided the welding procedure has been so qualified. 4) If interruption of welding occurs after the preheated joint is half filled or more than 10 mm throat thickness of weld, the preheat may be removed provided that slow controlled cooling of the weld area is insured. 5) Whatever the joint type (preheated or not), before continuation of welding, the weld is to be inspected, visually for cracks and, if required by the Inspector, tested by Magnetic Particle Testing. 6) For welds with throat thickness less than 10mm or showing defects after MPI, the weld shall be completely removed, the preparation reinstated and re-welded. 7) No chipping or grinding of the weld reinforcement shall be permitted, except when deemed necessary by the Inspector or indicated on approved drawings. 8) No welding shall be carried out on base material which has been cold formed to a permanent deformation exceeding the values expressed as maximum acceptable Percentage Strain (PS) of 5 % and 4 % for temperate/warm seas and cold seas, respectively, unless stress relieving is planned or strain ageing tests have shown that acceptable impact results are obtained on base material (see strain ageing test procedure shall be as follows:). The strain ageing test shall be made as follows on a steel sample: a) Tensioning of the sample so as to obtain the same permanent elongation as that anticipated for the final product b) Then, artificial ageing by heat treatment at 250 °C for one hour. 9) Reference shall be made to paragraph 7.7 and 6.4.6 regarding wide gap procedures. 7.18 Post Weld Heat Treatment (PWHT) 7.18.1 Post Weld Heat treatment (PWHT), is required only when specified by contract documents, identified on drawings, or required by welding procedure. PWHT when required, shall be in accordance with AWS D1. 1 except as modified below: 1) When PWHT is required, the Contractor shall submit a PWHT procedure and obtain approval from COMPANY prior to application of any PWHT. The maximum temperature for API 2Y, API 2W, or any quenched and tempered or thermo-mechanical control processed steel, shall not exceed 1100 °F (593 °C) or the tempering temperature, whichever is less. 2) Thermocouples shall be attached directly to the weldment (near the weld) to be PWHT and the full temperature cycle automatically recorded. The thermographs produced shall be included in the final documentation package. 3) All final visual inspection and NDE shall be completed or repeated after PWHT. Welding shall not be conducted on PWHT components without the approval by COMPANY except for welds to connect items to the structure (i.e. stub to brace CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 40 of 64 welds, core or barrel to leg welds, etc.). The PWHT of nodes, when required, shall be performed on the node as a complete component if practical. 7.18.2 PWHT when required shall be carried out by local heating or furnace heating according to ANSI / AWS D1.1 and the following requirements, unless recommended procedure and temperatures furnished by manufacturer of the material are different. 1) PWHT shall be performed at soaking temperature not exceeding the values hereafter for a time of two minutes per mm thickness up to 76.2mm (3”) and 2hrs 30 minutes plus 1 minute for each additional mm over 76.2 mm (3”): a) 580°C ± 15°C for controlled rolled steels b) 580°C ± 15°C or tempering temperature minus 30°C (the lowest temperature) for quenched and tempered steels 600°C ± 15°C for normalized steels and other C-steels 2) When local PWHT is carried out, the specified temperature shall be maintained over a PWHT when required shall be carried out by local heating or furnace heating according to region extending minimum three times the material thickness on either side of the weld 3) When PWHT is carried out in a furnace, the furnace atmosphere shall be controlled so as to avoid excessive oxidation of the surface of the fabrication. There shall be no direct impingement of the flame on the fabrication. 7.18.3 Heat treatment records The heat treatment cycle shall be recorded using thermocouples in effective contact with the fabrication and equally spaced over the heated area, both inside and outside the fabrication PWHT charts shall be properly marked and scales clearly identified. Charts shall be submitted to the approval of the Inspector. 7.19 Temporary Welds 7.19.1 Temporary welds shall be minimized. When temporary welding is deemed necessary, welding shall be carried out according to the same procedures that govern the permanent structural part in question (i.e. same care, consumables, preheating, etc., as required for the structural part). 7.19.2 Temporary welds (for temporary handling attachments, lugs, etc.) shall be minimised. Temporary welds or fabrication aids shall not be made in high stress areas where tubular members intersect. Temporary welding shall be performed with the same care, materials, minimum preheat, procedures as for the permanent weld installations and by the qualified welder. These welds shall not be made within 100 mm or 2 times the chord thickness of a tubular joint, whichever is greater. 7.19.3 Preheat for temporary welds shall be a minimum of 50 °C higher than specified on the applicable welding procedure. 7.19.4 All fabrication aids shall be removed unless approved by COMPANY. Removal shall be accomplished by cutting no closer than 5 mm from the main member and the remainder ground flush. It is permissible to grind up to 1.6 mm into the base metal surface to remove any undercut associated with the attachment weld. If COMPANY observes damage to the primary structure as a result of flame cutting or gouging, the damage shall be rectified by grinding followed by repair welding. The cutting position shall then be changed to 8 mm from the base metal surface. OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 41 of 64 7.19.5 All areas of primary structural members from which temporary attachments are completely removed shall be examined by magnetic particle. Gouges deeper than allowed by the material specification thickness tolerance shall be reported to COMPANY/Contractor and repaired. 7.19.6 The temporary welds shall subsequently be removed and ground flush with the base material. On High and Extra High Strength Steels (i.e. specified YS above 295 MPa) the grindings shall then be inspected by MPI or LPI. 7.20 Cleaning Upon completion of each welding pass, the weld shall be cleaned of spatters, slag and flux deposits. When the welded joint is completed, the adjoining welded surfaces shall be thoroughly cleaned of all spatters and deposits. 8.0 INSPECTION AND TESTING 8.1 General 8.1.1 The Contractor shall inspect all work during fabrication. The mandatory inspections specified herein shall be made at the Contractor’s expense using his personnel, equipment, and facilities. Sufficient inspection shall be made by the Contractor to ensure that the materials, fabrication, and testing comply in all respects with the requirements of this specification. COMPANY will conduct audits during fabrication. 8.1.2 The Contractor shall have and make readily available to involved personnel copies of the latest edition of the applicable specifications and codes at all fabrication sites. 8.1.3 The Contractor shall furnish, install, and maintain in a safe operating condition any scaffolding, ladders, walkways, and lighting necessary for safe inspection. 8.1.4 Welds shall not be coated before they have been inspected and accepted. 8.1.5 Welds shall be non-destructively examined no sooner than 48 hours after welding. 8.1.6 If difficulty is experienced in evaluating defects revealed by radiography, ultrasonic testing shall be used to facilitate interpretation, or vice versa. 8.1.7 Inspection and non-destructively examined no sooner than 48 hours after welding. 8.1.8 The COMPANY shall have the right to require inspection of any weld (not previously accepted) by either non-destructive or destructive methods to verify the structural integrity of any welded portion of the structure. This optional inspection can be for the purpose of routine quality control or to further investigate apparent defects detected visually. Defective welds found during a COMPANY optional inspection shall be repaired and the cost of removal, repairs, and re-inspection shall be at the Contractor’s expense. Welds found to be satisfactory shall be repaired and the cost of removal and repairs be at the COMPANY’s expense. COMPANY shall not be held liable by the Contractor for loss of time during these tests. 8.1.9 Contractor will provide full facilities for ultrasonic and radiographic inspection of welds. Facilities shall include equipment for film development and full time services of personnel currently certified to Level II in accordance with ASNT TC-1A or with equivalent qualifications approved by the COMPANY. 8.1.10 Prior to the inspection of the work, the Contractor shall clean the working area sufficiently to allow proper access to the work. The Contractor shall furnish, install, and maintain in a CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 42 of 64 safe operating condition, the necessary scaffolding, ladders, walkways, lighting, etc., to allow for safe and thorough inspection. 8.1.11 Weld inspection extent will be in accordance with Appendices A and B and the following criteria. 8.1.12 Welding shall be visually inspected. Visual inspection shall be made during fit-up, while the operators are making the welds, and again after the work is completed. After the welding is completed and the welds thoroughly cleaned, the welds shall be inspected with magnifiers under strong, adequate light for surface cracking, porosity, entrapped slag, excessive roughness, unfilled craters, gas pockets, undercuts, overlaps, insufficient weld size, and excessive concavity or convexity. 8.1.13 The Contractor shall adequately clean all welds of slag, spatter, dirt, grease, oil, and loose scale to aid in the visual inspection of those welds. If ultrasonic testing is required, the welds shall be brush blasted. The surface condition for properly applied welds should be adequate for proper interpretation of test results; therefore, any additional preparation of surfaces necessary, prior to instituting specific non-destructive mediums, will be provided by the Contractor at his expense. 8.1.14 All welds vital to the strength and integrity of the structure are defined as “critical welds” and shall be subject to further examination by means other than visual. Welds designated as critical shall include but not necessarily be limited to: 1) Splices in primary structural members 2) Joints in primary structure (tubular and otherwise) 3) Welds on padeyes 4) All welds on crane pedestals 8.1.15 Critical welds shall be radio-graphically inspected throughout their full length, where possible. Those critical welds that cannot be radio-graphically inspected shall be tested by ultrasonic methods. 8.1.16 Inspection records shall be submitted to the COMPANY for review and as a final record of all welding performed on the project. The COMPANY retains the final right to determine the acceptability of any weld. Interpretation of test results will be in accordance with the guidelines set forth in AWS D1. 1 or API RP 2X as applicable. 8.1.17 The COMPANY shall have the right to examine the work at any time. 8.1.18 It shall be clearly understood that weld acceptance shall not relieve the Contractor of the responsibility for satisfactory construction of all work in accordance with the contract requirements. 8.1.19 All welds will be visually inspected in accordance with section 6.9 of AWS D1. 1. The standard of acceptability for visual inspection shall be as per Table 6.1 of AWS D1. 1, as applicable. Weld areas containing defects exceeding these standards of acceptance for visual inspection, shall be repaired. Undercut shall be limited to a maximum of 0.01 in. (0.3 mm). 8.1.20 The COMPANY is vitally concerned with weld quality, geometry, fit -up, and size. Consequently, COMPANY will impose the use of gauges and non-destructive test procedures when and where it is deemed necessary. CPOC 8.2 8.3 OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 43 of 64 Qualification of NDT Procedures and Personnel 8.2.1 All inspectors shall be AWS QC 1 certified (or acceptable equivalent) for visual inspection, except specialty technicians (PT, MT, UT, and RT) who shall be qualified and certified according to the guidelines ASNT SNT-TC-1A or equivalent. Additionally, all specialty technicians may be required to demonstrate their capabilities with a practical site test for COMPANY approval. 8.2.2 The required NDE methods and the minimum extent of inspection shall comply with API RP 2A Table 13.4.3 and the additional requirements in Attachment 1 and 2 of this specification. 8.2.3 The Contractor shall submit NDT procedures for COMPANY approval prior to commencement of work. Radiographic Examination 8.3.1 Radiographic procedures and Standards shall be in accordance with Section 6, Part E of AWS D1. 1. The standard of acceptability for welds shall be as per Section 6.12 of AWS D1. 1. Radiographic examination shall be performed but not limited to the weld areas as follows: 1) The intersection of all tubular member girth and longitudinal seams. 2) Subsequent to trimming, the extreme ends of each longitudinal seam of fabricated tubulars to be employed as piling or for construction of jackets and other truss structures shall be examined by radiography. In addition, one radiographic film not less than 15” (380 mm) in length shall be obtained for each ten feet of weld length or fraction thereof in each individual tubular length. Location of this spot exposure shall be at the discretion of the COMPANY representative. When spot testing reveals indications of rejectable discontinuities that require repair, the extent of those discontinuities shall be explored. Two additional spots in the same segment of weld joint shall be taken at locations away from the original spot. The location of the additional spots shall be agreed upon between the Contractor and COMPANY Representatives. 3) When either of the two additional spots show defects that require repair, the entire segment of weld represented by the original spot shall be completely tested. If the weld involves more than one segment, two additional spots in each segment shall be tested at locations agreed upon by the Contractor and COMPANY representative, subject to the foregoing interpretation. 4) All circumferential welds of piling and all tubulars for truss structure fabrication shall be 100 % radiographically inspected. When the girth seam is intersected by a longitudinal seam of a fabricated tubular, the end inspection required above may be simultaneously performed during examination of the circumferential weld. 5) Any questionable weld defect. 6) One-hundred percent (100 %) of all beam splices in skid beams, main truss beams, and other major beams. Twenty percent (20 %) of all full section splices in minor or secondary beams. 8.3.2 Weld areas containing defects exceeding the acceptance standards in AWS D1. 1, Section 6.12, as revealed by radiographic testing, shall be repaired. If 20 percent or more 1 CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 44 of 64 the radiographs of welds made by a given welder contain defects requiring repair, 100 percent radiographic inspection of that welder’s work will be required at the Contractor’s expense. 8.4 Ultrasonic Examination 8.4.1 The ultrasonic examination procedures shall be established by an ASNT Level III ultrasonic specialist. The procedure shall define equipment, techniques, and methods consistent with the design requirements. As a minimum the essential variables listed in API RP 2X shall be detailed in the written procedure and submitted for COMPANY approval prior to use during trial and subsequent examination. Variations from the proven procedure shall be cause for re-qualification. 8.4.2 Ultrasonic examination of groove welds in structural shapes and plates shall comply with API RP 2X / AWS D1.1 Section 6, Part F. Acceptance criteria shall be per AWS D1.1 Section 6.13. 8.4.2 Ultrasonic examination of tubular structural welds shall comply with API RP 2X. T-, Y-, or Kconnections shall comply with level “C” acceptance weld quality. Unless otherwise approved by COMPANY representative, level “A” acceptance weld quality shall apply where UT is substituted for radiography. 8.4.4 UT shall be carried out in accordance with AWS D1 .1 / Class R for all kinds of joints. For T, K, Y joints and tubular joints with full penetration welds (refer to paragraph 7.8 of CPOC-GS-ST-0002), the “back up weld” at the root shall also be part of the testing. However, this back up weld shall be evaluated as per AWS D1.1 / ClassX. 8.4.5 UT can be used in lieu of RT when nominal Wall Thickness greater than 20 mm for Special steel category, 15 mm for Primary Steel category and 12.7 mm for Secondary Steel category. 8.4.6 For K or 1/2 V bevels, tandem technique is mandatory for special category (procedure to be submitted to COMPANY for approval). 8.4.7 Plate or pipe to be used as lifting aids, node cans in chord members, flanges or critical or girders requiring substantial stiffening, and all applications where the member is subject to substantial Z-direction loading shall be ultrasonically examined. Examination and reporting requirements of ASTM A578 shall apply. 8.4.8 The intersection location (footprint), including a six inch wide band shall be examined in accordance with ASTM A578 acceptance standard level II. Members with flaws that would interfere with weld inspection may be positioned so that acceptable material is located under all brace footprint areas. Weld repairs of members with unacceptable flaws may only be made with prior COMPANY approval using a COMPANY approved weld repair procedure. 8.4.9 Ultrasonic inspection of tubular joints shall be performed in accordance with API RP 2X, “Ultrasonic Examination of Offshore Structural Fabrication”. Level A rejection criteria shall be enforced. Ultrasonic examination shall be performed but not limited to the weld areas as follows 1) Regardless of previous plate examinations and prior to framing any member to another, such that loading is directed perpendicular to the surface of the mating member, the area of framing shall be examined for the presence of non-metallic CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 45 of 64 inclusions accepted by prior examinations and/or laminations and tears resulting from forming operations. 2) The area of framing shall be inspected 100 % by ultrasonic techniques along the plane of fusion and for a distance equal to twice the branch member thickness on either side of the plane of fusion. Freedom from all defects in the area is desirable and no single imperfection which cannot be contained within a one inch diameter circle shall be permitted in this area. To the maximum extent possible, all areas of imperfection shall be rotated to place all defects outside the areas to be welded. 3) All chord-to-web member connections in tubular trusses (jackets, bridges, etc.) shall be inspected 100 % by ultrasonic techniques. 4) Padeyes and temporary supports with full penetration joints shall be inspected 100 % by ultrasonic techniques. 8.4.10 Ultrasonic inspection of joints in beams shall be performed in accordance with AWS D1.1, Section 6,Part F. The standard for acceptability shall be as per Section 6.13 of AWS D1.1. 8.4.11 Weld areas containing defects revealed by ultrasonic inspection, exceeding the acceptance standards in AWS D1.1, Section 6 or API RP 2X, as applicable, shall be repaired. 8.4.12 The UT equipment shall have been calibrated since less than six months by an independent laboratory. The calibration certificate shall be made available to the Inspector. 8.5 8.6 Magnetic Particle Inspection (MPI) 8.5.1 Procedure to be as per ASTM E709 or Article 7 of ASME V. 8.5.2 MPI can be substituted by LPI upon prior approval of Inspector. 8.5.3 Acceptance criteria for MPI shall be as per Table 8.1 of this specification below. Liquid Penetrant Inspection (LPI) 8.6.1 Procedure to be as per ASTM E165 or Article 6 of ASME V. 8.6.2 Acceptance criteria shall be as per Table 8.1 of this specification OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 46 of 64 Table 8.1a - Standards of Acceptance for Weld Defects in Structural Steels for Internal Defects by RT Steel Member Category Type of defects Special Steel Primary Steel Secondary Steel Not acceptable Not acceptable Not acceptable Lack of fusion or Incomplete penetration Length ≤ t/3 Max. 12 mm Length ≤ 2t/3 Max. 25 mm Length ≤ 3t/2 Max. 50 mm Slag inclusion Length ≤ 2t/3 Max. 50 mm Width ≤ t/6 Max. 4 mm Length ≤ 3t/2 Length ≤ 3t Max. Max. 75 mm 100 mm Width ≤ Width ≤ t/4 Max. t/3 Max. 6 mm 5 mm Cracks Porosities  Isolated: max. pore diameter t/5; max. 3.5 mm t/4; max. 3.5 mm t/3; max. 4.0 mm  Cluster: max. pore diameter 2 mm 2 mm 2 mm  Scattered: max. accumulated Pore diameters in any 10 x 50 mm 10 mm 15 mm 20 mm Area of weld Table 8.1b - Standards of Acceptance for Weld Defects in Structural Steels for Surface Defects by Visual Inspection or MPI Steel Member Category Type of defects Special Steel Primary Steel Secondary Steel Cracks Not acceptable Not acceptable Not acceptable Undercuts - Static loads = Depth ≤ 0.4 mm Length ≤ 25 mm - Static loads = Depth ≤ 0.8 mm Length ≤ 25 mm - Static loads = Depth ≤ 0.8 mm Length ≤ 50 mm - Cyclic loads = Not acceptable - Cyclic loads = Not acceptable - Lack of fusion or Incomplete penetration Not acceptable Not acceptable Length ≤ t/2 Max. 10 mm Porosities Not acceptable Size ≤ t/4 Size ≤ t/3 Max. 3.5mm Max. 4.0mm OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 47 of 64 Table 8.1c - Standards of Acceptance for Weld Defects in Structural Steels for Surface Defects by LPI Steel Member Category Type of defects Special Steel Primary Steel Secondary Steel Cracks Not acceptable Not acceptable Not acceptable Linear Indication7) 8) - Static loads = - Static loads = L ≤ 12mm where L = length of indication L ≤ 2 mm - Cyclic loads = Not acceptable L ≤ 4 mm - Cyclic loads = Not acceptable - D < 4mm D < 6mm D < 8mm Non-linear indication8) 8.7 Where D = major axis dimension Production Tests 8.7.1 General 1) Welding shall be carried out in accordance with requirements of CPOC-GS-ST-0005. 2) For fabricated pipes, as per API 2B requirements, 100 % UT and 10 % RT on the ends shall be carried out 8.7.2 Production Tests Production tests shall be carried out on finished tubulars pertaining to Special and Primary Steel Category members. Production tests shall include tests on base metal and tests on welds as indicated below: 8.7.3 Production Tests on Base Metal The production tests on base metal shall be as per paragraph 6.4.10.5 of CPOC-GS-ST-0002. 8.7.4 Production Tests on Welds 1) Production test plates shall be welded as longitudinal extension pieces attached to the seams during production welding. Where the Inspector deems necessary, the Contractor shall prepare representative circumferential weld test pieces. These are not normally required where the circumferential seams are welded to an identical weld procedure as the longitudinal seams. Each production test plate shall be labelled with a machine reference number and for longitudinal seams a tubular reference number. Test pieces for circumferential seams must be welded on identical machines and to identical procedures as the seams they represent 2) Weld production tests shall be carried out per each WPS regularly once in every twelve (12) circumferential and once in every twelve (12) longitudinal seams in Special category tubulars and once in every fifty (50) circumferential and fifty (50) longitudinal seams for Primary Category tubulars. The production test programme shall be made so as to test equally, as far as possible, all the wall thicknesses covered by the said WPS. 3) All tests specified for the welding procedure qualification test (see paragraph OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 48 of 64 Welding procedure qualification for plates and tubulars (except for tubular nodes) shall be carried out. However, the impact test and tensile test are modified as follows: a) The transverse tensile test consists of only one specimen b) The impact test consists of only two sets of specimens: one with the notch centered in the weld axis and the other one with the notch located on the Fusion Line (FL) or Heat Affected Zone (HAZ) and centered at the place where the lowest average absorbed energy has been measured during the Welding Procedure Qualification Test (i.e. on FL or 2 mm from FL or 5 mm from FL). This test location shall be agreed with the Inspector. c) Production test pieces shall be 100 % non-destructively examined and mechanically tested in full compliance with paragraph ‘Testing procedures and standards of acceptance) of this specification. 4) Failure: production test welds which fail the requirements of paragraph 8.3 through 8.6 of this specification shall be rejected and brought to the attention of the Inspector and the cause of the failure shall be established by the Contractor. Further examination of welds made using the same welding procedure or by the same welder shall be carried out to ensure that unacceptable welding is not present in the structure. 8.7.5 Weld inspection In addition to the 100 % visual inspection, radiographic and ultrasonic testing shall be carried out according to Section 8 of this specification to the following extent on each finished tubular or section of tubular: 1) Longitudinal weld: 100 % inspection by NDT (10 % NDT inspection for Secondary steel category tubulars), plus radiographic inspection of weld extremities over 200 mm minimum. 2) Girth weld: 100 % inspection by NDT, whatever the tubular category. NDT means radiography for WT ≤ 15 mm and Ultrasonics (UT) for WT > 15 mm. When capping or back pass is made with a process other than SAW, then MPI shall also be required to 100 % extent on Special and Primary steel category members. 3) The NDT requirement for circumferential seam welds in jacket legs with the material properties of specified YS greater than 295 Mpa (42 ksi), CE greater than 0.41 % and wall thickness greater than 25.4mm, can be 90 % RT plus 10 % UT instead of 100 % RT as in Attachment 2. 9.0 WELDING REPAIRS 9.1 General 9.1.1 The Contractor shall repair or replace all welds that do not meet the requirements of the appropriate Codes and Standards and this specification. 9.1.2 Repairs to weldments and parent material shall be in accordance with ANSI / AWS D1.1, and this specification. 9.1.3 Repair welding procedures specifications shall include the method for removal of defects, preparation of weld area and subsequent non-destructive testing in addition to the details outlined in welding procedure specification. Repair welding procedure specifications shall OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 49 of 64 be submitted to COMPANY for review and APPROVAL prior to the commencement of repair. 9.1.4 It shall not be construed as unreasonable for the COMPANY to request proper repair of any defects in welds or materials that they consider to be detrimental to the strength and usefulness of the structure. 9.1.5 Repaired defects shall be inspected by the same criteria used for the original inspection. 9.1.6 The repair of all defects shall conform to the following requirements and conformance shall be subject to COMPANY approval. 1) Laminations extending into the face or bevel of a pipe are considered injurious defects. Pipe containing such injurious defects shall be cut back until all laminations are removed. 2) For all members other than API 2H material, defects in the finished tube not deeper than five percent of the specified nominal wall thickness, and mechanical marks not deeper than five percent or 1/16 in. (1.6 mm) whichever is less need not be removed. However, extent of defects must be determined. Shallow imperfections shall be ground to sound metal. The ground area shall be well joined and the thickness of the ground plates shall not be reduced more than seven percent of the nominal thickness, but in no case more than 1/8 in. (3 mm). If the depth of the defect exceeds the above limits, but is not more than 20 percent of the nominal thickness, welding repairs may be performed with COMPANY Representative’s approval, or the section rejected. 3) Repair of defects deeper than 20 percent of the nominal wall thickness, or repair of defects with length and/or width more than 20 percent of nominal diameter is not acceptable. For tubulars made from thermally treated plate, repair by welding shall be permitted only with the specific written COMPANY approval. 4) Contractor shall be allowed only TWO opportunities to repair a defect. Recurrence of the defect shall be cause for rejection at the discretion of COMPANY. The Inspector may request the use of extra low hydrogen electrodes for highly restrained weld repairs. 9.1.7 Notification 1) COMPANY shall be notified before repairs are made on defective welds and base material 2) The COMPANY shall be notified before repairs are made on defective material and welds. Repairs made without reasonable notice shall be subject to any form of testing (both destructive and non-destructive) to assure adequate repair and all removal, repair, and retesting deemed necessary by the COMPANY shall be at the Contractor’s expense. 3) Welds that are subjected to magnetic particle testing (MT) and Liquid Penetrant testing (LT), shall be performed in accordance with Section 6.10 of AWS D1.1. Magnetic particle inspection shall be by the AC yoke method using a white background and black ink. 4) 1 OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC 9.2 9.3 Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 50 of 64 Method of Repair 9.2.1 Defects may be rectified by grinding, machining or welding. Peening shall not be permitted. 9.2.2 Repairs at a same location shall be limited to 2 maximum or subject to acceptability of number of repair cycle by supporting PQR. 9.2.3 Injurious defects shall be removed by grinding or machining and, when necessary, repaired by welding carried out by qualified welders and using a previously qualified Welding Procedure (see paragraph. 6.3). Preheating at an approved temperature shall be carried out for steels with YS greater than 262 Mpa (38,000 psi) or WT greater than 25.4 mm (1”). 9.2.4 Repair of welds containing cracks shall be permitted only after the cause of cracking has been fully clarified by Contractor to the satisfaction of COMPANY and the approval to proceed is obtained from COMPANY. 9.2.5 Unacceptable defects shall be removed by grinding, machining or arc-air gouging. Where arc-air gouging is used, all carbon, copper and other debris, including carburized metal, shall be removed by grinding or other mechanical methods approved by the Inspector. 9.2.6 For partial repairs in welds, the cut out portion shall be sufficiently deep and long to remove the defect. At the ends and sides of the cut there shall be a gradual taper from the base of the cut to the surface of the weld metal. The width and profile of the cut shall provide adequate access for re-welding. As a guide, the minimum repair length will not be less than 100 mm (4”) even if the defect is of less extent, with 70 mm (2.75”) minimum at the bottom of the repair groove. 9.2.7 The repair grooves shall be examined by LPI or MPI in the presence of the Inspector to ensure that all defects are removed, prior to rewelding. 9.2.8 The external surface of the repair weld shall be subject to suitable shaping by grinding in order to obtain a uniform appearance and to merge smoothly into the original weld metal and/or into the adjacent base metal. Approval 9.3.1 After the initial joint is completed, only one (1) repair is allowed unless Approved by COMPANY. At the discretion of COMPANY repeated repairs may mean the complete removal of the entire weld metal back to its original joint preparation. Contractor shall evaluate and determine the cause for recurrence of repairs of a similar nature and act accordingly. 9.3.2 Each weld repaired area shall be 100 % re-inspected non-destructively according to Section 8 of this specification. Additional non-destructive testing such as MPI and LPI may be requested by the Inspector. 9.3.3 Repaired welds shall have 100 % NDT after repair. 1 CPOC 10.0 OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 51 of 64 DOCUMENTATION The documentation for each procedure shall contain, but is not limited to: 1) Welding process(es) and type(s) (automatic, manual, machine, or semi auto), code specification 2) Joint design including arrangement of parts to be welded, weld layers and bead sequence, backing, if used, and type of backing material. 3) Base metals specification and type or grade, thickness, diameter, chemical analysis and mechanical properties 4) Filler metals specification and electrode size 5) Weld position and progression 6) Minimum preheat and maximum interpass temperature and means of maintenance 7) Post weld heat temperature and time range 8) Type and composition of shielding gases 9) Electrical characteristics of current, polarity, amperage and voltage range, tungsten electrode size and type, mode of metal transfer if GMAW, electrode wire feed speed. 10) Technique of joint cleaning, bead type, number of passes and electrodes 11) Weld repair procedures including welder and foreman identification, type of filler meal, joint preparation, preheat, root and final pass, nondestructive examination results. OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 52 of 64 LIST OF FIGURES. 1) VICKERS HARDNESS TEST LOCATIONS 2) CHARPY V-NOTCH TEST LOCATIONS Figure 1a - Vickers Hardness Test Location for Welds Notes: 1) Test load should be 5 kg or less 2) Specimen shall be polished well enough to clearly show the fusion line. 1 CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 53 of 64 3) Indentations to be located as shown on the figures and as detailed below: a) HAZ: Starting at 0.20 – 0.50 mm from the fusion line with three (3) indents at 0.50 – 0.75 mm intervals. b) Weld Metal: A minimum of three equally spaced indents for each hardness traverse. 5) Hardness traverse on fillet welds should be as detailed for T – connections Above CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 54 of 64 Figure 1b - Vickers Hardness Test Location for Repair Welds CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 55 of 64 1 Figure 2a - Charpy V - Notch Test Locations Notes: 1) For base material thicknesses less than 19 mm (3/4 in.), only root location tests are required. 2) For base material thickness equal or more than 19 mm (3/4 in.) to < 50 mm, root and cap location tests are required. 3) For base material thickness equal to or greater than 50 mm, two intermediate sets shall be cut in addition to root and cap location tests. 1 CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 56 of 64 a) Partial – thickness repair b) Through – thickness repair 1 Notch Specimen Location: a) Notch at centerline of repair weld b) Center of notch location on fusion line 1 c) Center of notch located 2mm from fusion line d) Center of notch located 5mm from fusion line Figure 2b - Charpy V-notch Test Locations in Weld Repairs CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 57 of 64 Weld Procedure Qualification Tests Sampling of Test Specimens Figure 3 – Butt Welds of Plates in Positions 1G, 2G, 3G, and 4G Figure 4 – Butt Welds of Tubes in Positions 2G, 5G or 6G (in 2G Position Only One Macro./Hardness Specimen is required) Figure 5 – Full Penetration Groove Welds on Plates (T – Joint or Y – Joint) CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 58 of 64 ATTACHMENT 1 PROCEDURE, STANDARDS AND ACCEPTANCE CRITERIA FOR STRUCTURAL WELDING OFFSHORE STRUCTURAL WELDING AND INSPECTION CPOC Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 59 of 64 PROCEDURE, STANDARDS AND ACCEPTANCE CRITERIA FOR STRUCTURAL WELDING Testing Procedure Visual Inspection To comply with the Drawing and the requirement of Section 6.9 of AWS D1.1 Radiographic Test AWS D1. 1 Section 6, Part E / Section 9, Part F Ultrasonic Test 1 Test method in accordance with ASTM E164 2 Procedure and standards in accordance with AWS D1. 1, Section 6, Part F Magnetic Particle Test / Section 9, Part F, and API RP 2X Test method in accordance with ASTM E709 Liquid Penetrant Test Test method in accordance with ASTM E165 Acceptance Criteria Testing Non – Tubular Member Tubular Member Visual Inspection AWS D1.1 Section 6.9 AWS D1.1 Section 9.25 Radiographic Test AWS D1.1 Section 6.12 AWS D1.1 Section 6.12 Ultrasonic Test AWS D1.1 Section 6.13 AWS D1.1 Section 9.27.1 and API RP 2X AWS D1.1 Section 6.10 AWS D1.1 Section 6.10 AWS D1.1 Section 6.10 AWS D1.1 Section 6.10 Magnetic Particle Test Liquid Penetrant Test CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 60 of 64 ATTACHMENT 2 NDT EXTENT FOR WELDING OF OFFSHORE STRUCTURES CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 61 of 64 PERCENTAGE OF WELDS FOR NON-DESTRUCTIVE TESTING FOR WELDING OF OFFSHORE STRUCTURE RT UT MPI VI  = Radiographic Testing = Ultrasonic Testing = Magnetic Particle Inspection or Liquid Penetrant Test at COMPANY’s discretion = Visual Inspection JACKET JACKET LEG Circumferential Seam NDT RT UT % Length 100 100 % Joint 100 100  Heavy Wall Joint cans fabricated by Contractor. Longitudinal Seam RT UT 12 90 100 100  Heavy Wall Joint cans fabricated by others. Longitudinal Seam UT 100 100  Tubular cans fabricated by contractor. Longitudinal Seam RT UT 12 100 100 100  Grouting and flooring Connections MPI 100 100  Tubular Joint cans fabricated by others and conforming to API2B, per Mill Certificate: Longitudinal Seam VI 100 100 Grout packer wiper to leg UT 100 100  BRACES, MAIN PILES & CONDUCTOR PILES  Circumferential Seam in Braces RT UT 100 100 100 100  Pile to Add-on Circumferential Joint (welded offshore while Pile Driving UT 100 100  Tubular Joint cans fabricated by contractor. Longitudinal Seam RT UT 12 100 100 100  Tubular Joint cans fabricated by others and conforming to API2B, per Mill Certificate: Longitudinal Seam VI 100 100 CPOC OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 62 of 64  Tubular TKY Joints in Main Structure NDT UT MPI % Length 100 100 % Joint 100 100  Tubular TKY Joints in Conductor Framing Caisson Framing UT MPI 100 100 20 20  Doubler Plate or Tubulars to Caissons or Anode MPI 100 10  Doubler Plate to Leg or Brace MPI 100 100 PADEYE UT MPI 100 100 100 100 BOATLANDING  Circumferential Seam RT 100 50  Main Support TKY Joint UT MPI 100 100 100 100  Other TKY Joint UT MPI 100 100 10 50  Doubler Plate to Leg MPI 100 100 BARGE BUMPER  Circumferential Seam RT 100 100  Stab-in Points MPI 100 100  Bumper to Doubler MPI 100 100  Doubler Plate to Leg MPI 100 100 RISER PROTECTOR   Circumferential Seam TKY Joint RT UT MPI 100 100 100 50 10 50  Doubler Plate to Leg MPI 100 100 MPI 100 100 RISER CLAMPS  Stand-off to clamp Joints CPOC   OFFSHORE STRUCTURAL WELDING AND INSPECTION Doc. No. CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 63 of 64 PUMP CASING, PULL TUBE CAISSON NDT % Length % Joint Longitudinal Seam Circumferential Seam RT MPI 12 100 100 100 RT UT 100 100 100 100 RT UT 12 100 100 100 VI 100 100 DECKS DECKS LEGS & COLUMNS  Circumferential Seam  Tubular Joint cans fabricated by contractor. Longitudinal Seam  Tubular Joint cans fabricated by others and conforming to API2B, per Mill Certificate: Longitudinal Seam PLATE GIRDERS/FABRICATED BEAMS  Butt and Splices (if cannot RT) RT UT 100 100 100 100  Web to Flange (Fillet) MPI 100 100  Web to Flange (Full Pen) UT 100 100 TKY JOINTS  Girder to Column UT MPI 100 100 100 100  Brace to Column UT MPI 100 100 100 100  Brace to Girder UT MPI 100 100 100 100  Brace to Main Beam UT MPI 100 100 100 100 RT 100 100 BRACES  Circumferential Seam CPOC  OFFSHORE STRUCTURAL WELDING AND INSPECTION  CPOC-GS-ST-0005 Rev. 1 Date 31/03/2019 Page 64 of 64 NDT % Length % Joint RT UT 20 100 100 100 Tubular Joint cans fabricated by others and conforming to API2B, per Mill Certificate: Longitudinal Seam VI 100 100 MAIN BEAMS, DECK BEAMS Splices (if cannot RT) RT UT 100 100 100 100 UT MPI 100 100 100 100 RT 100 100 UT MPI 100 100 100 100 Tubular Joint cans fabricated by contractor. Longitudinal Seam  Doc. No. PADEYES  CRANE PEDESTAL Circumferential Seam  Beams to Pedestal  ANCILLARY SUPPORT FRAMING Crane Boom, Life Boat Support, etc MPI 100 100  Machinery Support and all other beam connections UT 100 10 BRIDGES AND FLARE BOOMS  TKY Joints MPI 100 100  Circumferential Seams RT 100 100 Notes 1) 2) 3) 4) All welds to be 100 percent Visual Inspected. All Special and Primary steel fabrication welds to be 100 percent MPI or DPI. All full penetration welds to be 100 percent Ultrasonic Tested. Where percentages indicated above are less than 100 percent, a) Location to be chosen by COMPANY Representative. b) If defect discovered; equal, additional by UT or limited RT after the second test, full RT is required on that member. 5) On locations where Ultrasonic Testing or magnetic Particle Inspection indicated above is not possible, Liquid Dye Penetrant inspection may be substituted with COMPANY approval. 1

CPOC-GS-ST-0005-CPOC v1 HL

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