Certification Fibrous Concrete Reinforcement UltraFiber 500®

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Certification
Fibrous Concrete Reinforcement
UltraFiber 500®
Material:
Solomon Colors, Inc. certifies that the UltraFiber 500® fibers are made from
100% virgin specialty cellulose fiber with patented alkaline resistance coating
specifically engineered and manufactured for use as fibrous secondary
reinforcement for concrete. UltraFiber 500® meets the material specifications
described in ASTM C-1116-08, Section 4.1.4 Type IV Natural Fibers and ASTM D7357-07 Cellulose Fibers.
Performance:
We further certify that concrete test specimens produced containing a minimum
of 1.0 lbs/yd3 (0.6 kg/m3) of UltraFiber 500® have been evaluated by
independent test laboratories and have met or exceeded the specified values
for Plastic Shrinkage Cracking (ICC AC-217), Annex A), Alkali Stability (ASTM
D6942), Compressive Strength (ASTM C234), Freeze/Thaw Resistance (ASTM
C666) as described in ICC Evaluation Service AC217, Acceptance Criteria for
Concrete with Virgin Cellulose Fibers. UltraFiber 500® has been classified by
Underwriters Laboratories as 2 hour fire rated on all Composite Metal Deck
Assembly D700, D800 and D900 Designs.
Application:
UltraFiber 500® is an alternate system to welded wire fabric and mild
temperature steel when used for non- structural secondary reinforcement in
hardened concrete
Ed Mclean
Director of Fiber Products and Sales
4050 Color Plant Road Springfield, IL 62702
O/C (217) 331-4667
Fax 888-828-5250
emclean@solomoncolors.com
DIVISION: 03 00 DO-CONCRETE
SECTION: 03 24 00-FlllROUS REINFORCING
REPORT HOLDER:
SOLOMON COLORS, INC.
40 50 COLOR PIANT ROAD
SPRINGFIELD, ILLINOIS 62702
EVAWATION SUBJECT:
ULTRAF IBER 500° VIRGIN CELLULOSE Fl BERS
ICC~ ICC~ ICC~
{Es; ~,"5S;
~
c
PMG
LJSTED
look for the tr~ted n1arks of Confo1mitv!
"2014 Recipient of Prestigious Wescem Scates Seismic AJAcy Council
(>11SSPC} AwatrJ in Excellence•
ICC-ES E11aluarion &portJ Ol'e not to be conJtrusd aJ rspreJsnting a&Jth&n·cJ or azy other altribi.reJ not
JpdcificalQI addreJJed nor are th4)' 10 be con.stnJ6d a~ an sndorJsm&~ qf1h8 JliJiecl of the report or a
rscomm8ndationfor itJ uJe. There iJ no WOl'rmtv ~ ICC Evaluan·on .&rvics, LL C expreJJ or i"f)li·sd ~
10 azy finding or other matter in thiJ report, or aJ to a~ product C(!llered ~ ths rsport.
Copyrght © 2015
ES ICCSERVICE
EVALUATION
~·
Most Widely Accepted and Trusted
ESR-1032*
ICC-ES Evaluation Report
Reissued March 2015
This report is subject to renetval March 2017.
www.icc.es.org
I (8111) 423.6587 I (562) 699-0543
miner al-based chemic.al that results in an .ak.aline- resistant
fiber. The fibers have an aver.age denier of 2.8.
0 IVISION: 03 00 DO-CONCRETE
Sedion: 03 24 CO-Fibrous Reinforcing
3.2 Strudura Plain Concrete:
REPORT HOLDER:
Structural plain concrete must comply with 2015 and 2012
18 C Section 1903 (2009 and 2006 I 8 C Section 19l9).
Concrete must be proportioned as norm.al weight and
comply with .applicable requirements set forth in Section
1904 of the 18 C.
SOLOMON COLORS, INC.
4050 COL OR PLANT ROAO
SPRINGFIELD, ILLIN DIS 62702
(800) 624-0261
www.solomoncolors.com
4.0 INSTALLATION
4.1
EVALUATION SUBJECT:
1.0 EVALUATION SCOPE
Compliance >Nth the folloWng codes:
• 2015, 2012. 20@ and 2006 lntema§onal Building
0
Code (1BC)
• 2015 2012, 2009 and 2003 /ntemational Residen§al
19
Code (IRC)
• 2013 Abu Dhabi lntemational Building Code• (ADIBC)t
~ Btd o• tl:t 21ll9 llC. 3][]9 18C co~ StCD:l•s rt't It •ctd
.. u.~ ttpoltatt U.t Sant Stctbt$ I• t•t ADl8C.
'T•t ADl8C
Properties E!'lrcllucted:
• Fiber durability.
The fibers must be blended into the concrete mix at
3
a minimum rat»? of 1. pound pier cubic yard (0.44 kghnJ
of concrete. The dos.age must not exceed 15 pounds per
cubic yard (8.9 kglm3). When concrete slabs are exposed
to .abrasive and/or imp.act conditions (e.g. forklifts), the
dos.age raft? must be a minimum of 1.5 pounds per cubic
yard (O.eg k9"m3> of concrete.
The manufacturer's published installation instructions
using either a dispersible b.ags~tem or a buk time metric
syst>?m and this report must be strictly .adhered to, and a
copy ofthe manufacturer's installation instructions must be
av.ail.able at all times on the jobsite during installation.
4.2 Fire-resistznce-raed Construdion:
• Crack control in concrete.
• Fire-resistance-rated construction
• Noncombustible construction
2.0 USES
U ltraF iber &Jr.I' virgin cellulose fibers are used as a fiber
.admbdure in norm.al-weight concrete in buildings of any
construction type for:
• Reducing shrirl<.age and temperature
structural plain concre~ slabs on grade.
Genera:
Ultr.aFiber 50r:I' virgin cellulose fibers must be dispersed
uniformly through the concrete mbdure in .accordance with
ASTM C1116.
ULTRAFIBER 500° VIRGIN CELLULOSE FIBERS
• Reducing plastic shrirl< age cracking
concrete and structural plain concrete.
A Subsidiary of the lrtemaliona/Ccxle Counc~
of reinforced
er .acking
in
•Components of fire-resistance-rated floor/ceiling and
floor-design assemblies.
3.0 OESC RIPT ION
3.1 Cellulose Fibers:
U ltr.aF iber 50r:I' is made from virgin cellulose fibers that
have been chemic.ally processed and then treated with a
Ultr.aFiber roo" virgin cellulose fibers may be used as an
alternative to welded wire fabric in concrete and sreel floor
units of listed fire-resist.ant-ratied floor/ceiling and floor·
design .assemblies at a minimum dos.age rate of 1.0 pound
per cubic yard (O.~ k9'"m3> and maximum dos.age rate of
2.0 pound per cubic yard (1.19 kglm3) of concrete for up to
bN~hour fire-resistance ratings. Concrete-steel form unit
floor .assemblies must be a minimum of No. 22 gage steel
for fluktd decks and No. 2D/'2D gage for cellular units, and
1
must have minimum 2 /z inch-thick concrete over the top of
the flutes. Except for substitu1ion of the fibers for the
welded-wire fabric, all other .aspects of the fire- resist.ancer.a~d .assembly must comply with it; listing.
5.0 CONDITIONS OF USE
The Ultr .aFiber 5008 virgin cellulose fibers described in this
report comply with, or are a suit.able .alternative to what is
specified in, those codes specific.ally lisktd in Section 1.0 of
this report. subjectto the following conditions:
5.1
Design and construction of concrete utilizing the
Ultr aFiber 50r:I' fibers must be in .accordance with the
*RJ?vised March 2015
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ESR-1032 I M:lstWidely Accepted and Trusted
Page 2of 2
requirement; of the applicable codes and A.Cl 318. as
applicable.
5.7 Use of fibers must be approved by a regist»?red
design professional, if applicable.
5.2 The fibers must be blended in accordance with the
manufacturefs published instructions and Section 4.0
of this evaluation report. If there is a conflict beb.lueen
this report and the manufacture(s published
installation instructions, this report governs.
5.8 A batch ticket. signed by a ready· mO< representative,
must be available to the code official upon request.
The delivery ticket must include. in addition to the
items noted in ASTM cg4, the type and amount of
fibers added to the concrete mO<.
5.3 The use of the fibers is limited to
concrete.
norma~weight
5.4 The fibers must not be used to replace any structural
reinforcement. Structural reinforcement is described
in 2014 ACI 318 Section 20.2 (2011, 2003 and 2005
ACI 318 Section 3.5.
5.5 For structural plain concrete, control joints. as
required by 2014 ACI 318 Section 143.4(2011, 2008
and2005 A.Cl 318 Section22.3, must be provided.
5.6 For reinforced concrete. strucb.Jral reinforcement and
shriri< age and t>?mper ature reinforcement in
accordance with 2014 ACI 318 Section 24.4 (2011,
2008 and 2005 AC I 318 Section 7 .12, must be
provided.
6.0 EVIDENCE SUB MITT ED
Data in accordance with IC C·ES Acceptance Crit>?ria for
Concrete with Virgin Cellulose Fibers (AC217), dated June
2010 (editorially revised March 2015).
7.0 IDENTIFICATION
Each box of UltraFiber 500• virgin cellulose fibers must be
identified with the Solomon Colors, lnc.'s name and/or
tr adema1k, address and t>?lephone number; product trade
name; dosage rate: use instructions; and the evaluation
report number (ESR· 1032).
ES SERVICE
ICC EVALUATION
~·
ICC-ES Evaluation Report
Most Widely AA:cepted and Trusted
ESR-1032 FBC Supplement
ls,,,,ed March 2015
This report is subject to renewal March 2017.
www.i cc.es.org I (8111) 423-6587 I (562) 699-0M3
A Subsidiary of the lrAem<Aiona!Ccxle Council"
DIVISION: 03 00 DO-CONCRETE
Sedion: 03 24 CO-Fibrous Reinforcing
REPORT HOLDER:
SOLOMON COLORS, INC.
4050 COL OR PLANT ROAD
SPRINGFIELD, ILLIN DIS 62702
(800) 624-0261
www.solomoncolors.com
EVALUATION SUBJECT:
U l TRAFIBER 500° VIRGIN CELLULOSE FIBERS
1.0 REPORT PURPOSE AND SCOPE
Purpose:
The pu1pose of this evaluation report supplement is to indicate that Ultr aFiber 500° virgin cellulose fibers, recognized in
ICC-ES master evaluation report ESR-1032. has also been evaluated for compliance with the codes noted below.
Applicable code editions:
• 2014 Florida Building Code- Building
• 2010Florida Building Code- Building
• 2014 Florida Building Code- Residen§al
• 2010 Florida Building Code- Residential
2.0 CONCLUSIONS
The UltraFiber 500° virgin cellulose 1ibers, described in Sections 2.0 through 7 .0 of the master evaluation report ESR· 1032,
comply with the 2014 and 2010 Florida Building Code-Building and the 2014 and 2010 Florida Building Code-Residential,
provided the design and instillation are in accordance with the International Building Coo'e•(IBC) provisions noted in the
master report.
Use of the Ultr aFiber 500° virgin ce Hu lose fibers for compliance with the High-Velocity Hurricane Zone provisions of the
2014 and 2010 Florida Building Code-Building and the 2014 and 2010 Florida Building Code-Residential has not been
evaluated and is outside the scope of this supplement.ii report.
For products falling under Florida Rule 9N·3, verification that the report holde(s quality-assurance program is audited by a
quality- assurane& &ntily approv&d by th& Florida Building CommSsion for thQ typ& of iMpQetioM b&ing eonduetQd
i~
th&
responsibility of an approved validation entity (or the code official when the report holder does not possess an approval by
the Commission).
This supplement expires concurrently with the master report. reissued March 2015.
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Page 1 Of1
Buckeye UltraFiber 500® - 2 Hour U~L. Classified
By Michael J Schultz~ PE & Bruce Harding, PhD
Buckeye UltraFiber 500® has been Classified as 2 Hour Fire Resistant when used in D700, D800 and D900
series Floor-Ceiling composite metal deck assemblies as a replacement to welded wire fabric for secondary
reinforcement at a dosage rate of 1.0 lb/cy. To obtain this classification, UltraFiber 500® was tested by
Underwriters Laboratories in a fire test of a full scale D900 series composite metal deck assembly at their
laboratory in Northbrook, Illinois.
The classification testing was performed per acceptance criteria ANSI/UL263 (ASTM El 19 and NFPA 251),
"Fire Tests of Building Construction and Materials." The average furnace temperature from which the fire
rating was derived is 1000°F at 5 min., l 400°F at 15 min., 1550°F at 30 min., 1700°f at 60 mjn. and 1850°F at
120 min.
Deck assembly with full load applied
Fire under deck assembly during test
A detailed description of the assembly, its performance in the fire test and other pertinent details such as
specification of materials, Classification coverage and alternate assembly detaiJs are included in UL Report No.
R25038 prepared for UltraFiber 500®.
What Does 0700, 0800 and 0900 Mean?
Underwriters Laboratories uses a letter to identify groups of construction (floors-ceilings, beams, columns etc.)
and a number to identify types of protection (unprotected, membrane or direct app)jed protection). The letters
and numbers that pertain to UltraFiber 500® are identified below:
D
700
800
900
Floor-Ceiling Designs - Concrete with Steel Floor Umts and Beam Support
Mastic Fire Protective Coating applied to underside of Steel Floor Umts
Intumescent Fire Protective Coating applied to underside of Steel Floor Units
Unprotected Steel Floor Units (Uncoated)
UL Website-www.uJ.com
Page 1 of 1
CBXQ.R25038 - Fiber Reinforcement and Concrete Additives
- ® ONLINE CERI!F!CAT!ONS DIRECTORY
CBXQ.R25038
Fiber Reinforcement and Concrete Additives
page Bottom
Fiber Reinforcement and Concrete Additives
See General Information for Fjber Reinforcement and Concrete Additives
BUCKEYE TECHNOLOGIES INC
R25038
1001 TILLMAN
PO BOX 80407
MEMPHIS, TN 38108 USA
Type Ultra Fiber 500. For crack control use in Floor-Ceiling Design Nos. ~. Q.2.U., ~and .G..Sfil. Fibers added to concrete mix at a rate of
2.0 lb of fiber for each cu yard of concrete.
Type Ultra Fiber 500. For use as an alternate or in addition to the welded wire fabric used in Floor-Ceiling D700, D800, D900 Series Designs. Use
shall be limited to assemblies having a 2-hour maximum fire resistance rating. Fiber added to concrete mix at a maximum rate of 2.0 lb of fiber
for each cu yard of concrete.
Last Updated on 2009-07-23
Questions?
Print this page
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© 2015 UL LLC
When the UL Leaf Mark is on the product, or when the word "Environment" is included in the UL Mark, please search the UL Environment
~for additional information regarding this product's certification.
The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured
under UL's Follow-Up Service. Only those products bearing the UL Mark should be considered to be Certified and covered under UL's Follow-Up
Service. Always look for the Mark on the product.
UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide
Information, Assemblies, Constructions, Designs, Systems, and/or Certifications (files) must be presented in their entirety and in a nonmisleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with
permission from UL" must appear adjacent to the extracted material. In addition, the reprinted material must Include a copyright notice in the
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CBXQ.Guidelnfo - Fiber Reinforcement and Concrete Additives
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CBXQ.Guidelnfo
Fiber Reinforcement and Concrete Additives
View Listings
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Fiber Reinforcement and Concrete Additives
Guide Information for Fire-resistance Ratjngs
USE
This category covers fiber rein forcement and concrete additives investigated for use in fire-resistance designs as detailed in the individual
certifications and in Fire-resistance Ratings - ANSI /UL 263 (~) The fiber reinforcements are intended to control temperature and shrinkage cracking of structural concrete when proportioned and mixed as
specified in the individual certifications. These fibers have not been investigated to increase the structural capacity of t he concrete/fiber mixture.
Fibers that may also be used as an alternative to the welded wire fabric are identified in t he individual certifications. AC! 318, "Building Code
Requirements for Structural Concrete and Commentary," and ANSI/SDI Ct.O, "Standard for Composite Steel Floor Deck," should be consulted
regarding structural design requirements.
The concrete additives are intended to control temperature and thermal t ransmission of structural concrete when the mix is proportioned as
specified in the individual certifications. These additives have not been investigated to increase t he structural capacity of the concrete.
Concrete addit ives may be added as specified in the individual certifications. AC! 3 18 and ANSI/SDI Ct.O should be consulted regardi ng structural
design requirements.
Where indicated in the individual certifications, product s covered under this category have also been evaluated by ICC Evaluation Service (ICCES).
RELATED PRODUCTS
For information on related products, see Fire-resistance Ratings - ANSI/UL 263 (~).
ADDmONAL INFORMATION
For additional information, see Fire-resistance Ratings (IDIB!:I).
REQUIREMENTS
The basic standard used to investigate products in this category is ANSI/UL 263, "Fire Tests of Building Construction and Materials."
UL MARK
The Certification Mark of UL on the product is the only method provided by UL to identify products manufactured under its Certification and
Follow-Up Service. The Certification Mark for these products includes the UL symbol, the words "CERTIFIED" and "SAFETY," the geographic
identifier(s), and a file number.
Additiona l Certification Mark ings
Products covered under this category are additionally marked with the following information:
For fiber reinforcement:
FIBER REINFORCEMENT
AS TO FIRE RESISTANCE
DESIGN NO(S) . _ _
SEE UL ONLINE CERTIFICATIONS PIRECTORY
or
FIBER REINFORCEMENT
AS TO FIRE RESISTANCE
SEE UL ONLINE CERTIFICATIONS PIRECTORY
For concrete additives:
CONCRETE ADDITIVE
AS TO FIRE RESISTANCE
DESIGN NO(S) . _ _
SEE UL ONLINE CERTIFICATIONS P I RECTORY
or
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CBXQ.Guidelnfo - Fiber Reinforcement and Concrete Additives
Page 2of2
CONCRETE ADDmVE
AS TO FIRE RESISTANCE
SEE UL ONLINE CERTIFICATIONS PIRECTORY
Alternate UL Mark
The Classification Mark of UL on the product is the only method provided by UL to identify products manufactured under its Classification and
Follow- Up Service. The Classification Mark for these products Includes the UL symbol, the word "CLASSI FI ED" above the UL symbol (as illustrated
in the Introduction of this Directory), and the following additional information:
For fiber reinforcement:
FIBER REINFORCEMENT
FIRE RESISTANCE CLASSIFICATION
DESIGN NO(S). _ _
SEE UL FIRE RESISTANCE DIRECTORY
Control No.
or
FIBER REINFORCEMENT
FIRE RESISTANCE CLASSIFICATION
SEE UL FIRE RESISTANCE DIRECTORY
Control No.
For concrete additives:
CONCRETE ADDITIVE
FIRE RESISTANCE CLASSIFICATION
DESIGN NO(S). _ _
SEE UL FIRE RESISTANCE DIRECTORY
Control No.
or
CONCRETE ADDITIVE
FIRE RESISTANCE CLASSIFICATION
SEE UL FIRE RESISTANCE DIRECTORY
Control No.
*• ****• ***
*•*• **••**• •***
UL, in performing its functions in accordance with its objectives, does not assume or undertake to discharge any responsibility of the
manufacturer or any other party. UL shall not Incu r any obligation or liabilit y for any loss, expense or damages, including incidental or
consequential damages, arising out of or in connection with the use, interpretation of, or reliance upon this Gulde Information.
Last Updated on 2013-05-16
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Terms of Use
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© 2015 UL LLC
When the UL Leaf Mark is on the product, or when the word "Environment" is included in the UL Mark, please search the UL Enyjronment
~for additional information regarding this product's certification.
The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured
under UL's Follow-Up Service. Only those products bearing the UL Mark shou ld be considered to be Certified and covered under UL's Follow-Up
Service. Always look for the Mark on the product.
UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide
Information, Assemblies, Constructions, Designs, Systems, and/or Certifications (files) m ust be presented In their entirety and in a nonmisleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with
permission from UL" must appear adjacent to the extracted material. In addition, the reprinted material must include a copyright notice in the
following format: "© 2015 UL LLC".
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BXUV.0 973 - Fire-resistance Ratings - ANSI/UL 263
Page 1 of 3
- ® ONLINE CERTIFICATIONS DIRECTORY
Design No. D973
BXUV.D973
Fire-resistance Ratings - ANSI/UL 263
Page Bottom
Design/System/Construction/ Assembly Usage Disclaimer
• Aut horities Having Jurisdiction should be consulted in all cases as t o the particular requirements covering t he installation and use of UL
Certified products, equipment, system, devices, and materials.
• Authorities Having Jurisdiction should be consulted before const ruction.
• Fire resistance assemblies and products are developed by the design submitter and have been investigated by UL for compliance with
applicable requirements. The published information cannot always address ev ery construction nuance encountered in the field.
• When field issues arise, it is recommended the first contact for assistance be the technical service staff provided by the product
manufacturer noted for the design. Users of fire resistance assemblies are advised to consult the general Guide Information for each
product category and each group of assemblies. The Guide I nformation includes specifics concerning alternate materials and alternate
methods of construction.
• Only products which bear UL's Mark are considered Certified.
BXUV - Fire Resistance Ratings - ANSI/UL 263
BXUV7 - Fire Resistance Ratings - CAN/ULC-S101 Certified for Canada
See General I nformation for Fire-resistance Rat ings - ANSI/UL 263
See General Information for Fire Resist ance Rati ngs - CAN/ ULC-5 101 Certified for Canada
Design No. D973
May 18, 20 15
Restrained Assembly Rating - 2 Hr.
Unrestrained Assembly Ra ting - 0 Hr. (See Ite m 5)
Unrestrained Bea m Rating - 2 Hr.
This design was ev aluated usi ng a load design m ethod other than the Limit States Design Method (e.g., Working Str ess Design
Method). For jurisdictions employing the Limit States Design Method, such as Canada, a load restriction factor shall be use d - See
Guide §XWl or .lt2Wil
* Indicates
such products shall bea r the UL or cUL Certi fication Mark for jurisdictions employing the UL o r cUL Certification (such
as Canada), respectively.
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Page 2of3
BXUV.0973 - Fire-resistance Ratings - ANSI/UL 263
2
3
See ltem2
1. Steel Beams - Min W8x28 wide flange beam. When Item 6, Mastic and I ntumescent Coating* is used, beam shall be
primed with a modified alkyd, or epoxy based primer.
2. Normal Weight Concrete - Normal weight concrete, carbonate or siliceous aggregate, 145 lb/ ft 2 +/- 3 lb/ft2 , 4000
psi compressive strenath vibrated. Min thickness shown in the table below:
Restrained
Assembly Rating Hr
2
Concrete
(Type)
Normal Weight
Concrete Unit
Weight pcf
142-148
Concrete
Thkns In.
3-3/4
3. Shear Connectors - Studs, 3/4 in. diam by 3- 1/2 in. long, headed type or equivalent per AISC specification. Welded
to the top flange of the beam, through the deck.
4. Fiber Reinforcement* - Fibers shall be added to concrete mix at a rate of 2 lb/yd 3•
BUCKEYE TECHNOLOGIES INC - Type Ultra Fiber 500
5. Steel Floor and Form Units* - Composite 2 in. deep galv fluted units. Min gauge 22 MSG. Spacing of welds
attaching units to supports shall be 12 in. OC max unless specified otherwise. Adjacent units button-punched or welded
together at side joints 36 in. OC max, unless specified otherwise. When max clear span of the steel floor and form units is
less than or equal to 10 ft, the unrestrained assembly rating is increased to 2 Hr. to match the unrestrained beam rating.
The upper live load limit for all units is 250 psf.
ASC STEEL DECK, DIV OF ASC PROFILES LL c
-
36 in. wide Type 2WH-36, 2WHS-36.
VERCO DECKING INC - A NUCOR CO - 24 or 36 in. wide Types PLW2 Formlok, W2 Formlok, PLW3 Formlok, W3
Formlok.
VULCRAFT, DIV OF NUCOR CORP - 24 or 36 in. wide Types 2VLI, 3VLI.
6. Mastic and Intumescent Coating * - Coating spray, brush or towel applied directly from containers to 0.143 in.
thickness. Flutes above beam to be completely filled with mineral wool insulation having a minimum density of 6 lb/ft2•
CARBOLINE
co -
Type Nullifire S606.
Investigated for Interior Condition Space Purpose and Interior General Purpose. (See Item 7).
6A. Spray-Applied Fire Resistive Materials* - As an alternate to Item 6 - Applied by mixing with water and spraying
in more than one coat to the beam to a final thickness of 1-1/16 In. When fluted steel floor units are used, crest areas
shall be filled with Spray-Applied Fire Resistive Materials above the beam. Beam surfaces must be clean and free of dirt,
loose scale and oil. Min avg and min ind density of 15/14 pcf respectively. Mi n avg and min ind density of 19/18 pcf
respectively for Types ?GP and ?HD. Min avg and min ind density of 22/19 pd respectively for Types Z-106, Z-106/G,
Z-106/HY. For method of density determination, see Design Information Section.
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Page 3of3
BXUV .D973 - Fire-resistance Ratings - ANSI/UL 263
ARABIAN VERMICUUTE INDUSTRIES - Type MK-5.
PYROK INC - Type LD.
SOUTHWEST FIREPROOFING PRODUCTS
9MD.
w
R GRACE &
co - CONN -
co -
Types 4, 5, 5EF, 5GP, 5MD, 7GP, 7HD, BEF, 8GP, 8MD, 9EF, 9GP,
Types MK-5, MK-6/HY, MK-6s, Z- 106, Z- 106/G, Z-106/HY.
Investigated for Interior Condition Space Purpose and Interior General Purpose. (See Item 7).
7. Top Coat - (Not shown, for use with Item 6, Mastic and Intumescent Coating) - Type Carboguard 1340 or Type
Rustbond Penetrating Sealer intermediate coat applied over the base coat at 0.002 in. thickness and Type Carbothane
133HB top-coat or Carbothane 133MC top-coat, Type Carbocryllc 3359 or Type Carbothane 133VOC top-coat applied over
the intermediate coat at 0.003 in. thickness.
* Indicates such products shall bear the UL or cUL Certification
Mark for jurisdictions employing the UL or cUL Certification
(such as Canada), respectively.
Last Updated on 2015-05-18
Ouestjons'
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BXUV.0229 - Fire-resistance Ratings - ANSI/UL 263
Page I of 8
- ® ONLINE CERTIFICATIONS DIRECTORY
Design No. G229
BXUV.G229
Fire-resistance Ratings - ANSI/UL 263
Page Bottom
Design/System/Construction/ Assembly Usage Disclaimer
• Authorities Having Jurisdiction should be consulted in all cases as to the particular requirements covering the installation and use of UL
Certified products, equipment, system, devices, and materials.
• Authorities Having Jurisdiction should be consulted before construction.
• Fire resistance assemblies and products are developed by the design submitter and have been investigated by UL for compliance with
applicable requirements. The published information cannot always address every construction nuance encountered in the field.
• When field issues arise, it is recommended the first contact for assistance be the technical service staff provided by the product
manufacturer noted for the design. Users of fire resistance assemblies are advised to consult the general Guide Information for each
product category and each group of assemblies. The Guide Information includes specifics concerning alternate materials and alternate
methods of construction.
• Only products which bear UL's Mark are considered Certified .
BXUV - Fire Resistance Ratings - ANSI/UL 263
BXUV7 - Fire Resistance Ratings - CAN/ULC-S101 Certified for Canada
See General Information for Fire-resjstance Ratings - ANSI/UL 263
See General Information for Fire Resjstance Ratings - CAN/ULC-SlOl Certified for Canada
Design No. G229
May 18, 20 15
Restrained Assembly Ratings - 1-1/2, 2 or 3 Hr.
(See Items 1, 2A, SA, SB, SC, SD , 12, 12E, 12F, 12G, 13, lS a nd 16)
Unrestrained Assembly Ratings - 1- 1/2, 2 or 3 Hr.
(See Ite ms 1, 2 A, SA, SB, SC, SD , 12, 12E, 12F, 12G, 13, lS and 16)
Unrestrained Beam Ratings - 1- 1/2, 2 and 3 Hr.
(See Items 2A, 12, 12E, 12F, 12G, 13 and 16)
This design was e valuated using a load design method other than the Limit States Design Method (e.g., Working Stress Design
Method). For jur isdictions employing the Limit States Design Method, s uch as Canada, a load restriction factor shall be used - See
Guide .llXl.0£ or .!lXmlZ
* Indicates s uch products s hall bear the UL or cUL Certification Mark for jurisdictions e mploying the UL or cUL Certification (such
as Canada), respectively.
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BXUV.0229 - Fire-resistance Ratings - ANSI/UL 263
Beam -
W8x24, min size. As alternat e to steel beam, Joist girders (Not shown)-20 in. min depth and 13 lb/lin ft min weight.
1. Normal- Weight Concrete - Carbonate or siliceous aggregate, 150 + or- 3 pcf unit weight, 3000 psi compressive
strength .
Restrained
Assembly
Rating Hr
Unrestrained
Assembly
Rating Hr
Concrete
Thkns
In.
1- 1/2
1- 1/2
2
2
2-1/2
3
3-1/4
3
2
2. Welded Wire Fabric - 6x6-Wl.4xWl.4.
2A. Fiber Reinforce m e nt* - As an alternate to Item 2, for 1-1/2 and 2 hr assembly and beam ratings only. Engineered
Synthetic or St eel fibers added to concret e mix to control shrinkage cracks in concrete. See Fiber Reinforcement (CBXQ)
Category for rate that fibers are added to concrete mix and names of manufacturers. The floor assembly with the fiber
reinforcement must still meet its structural capacity requirements.
BUCKEYE TECHNOLOGIES INC - Type Ultra Fiber 500
FABPRO ORIENTED POLYMERS INC - Types Monofilament / Multifilament Polypropylene, Fibrillat ed Polypropylene.
FIBERCON INTERNATIONAL INC - Types Fibercon Manufactured Steel Fibers, Mat rix
Hybrid Fibers.
cs Steel Fibers,
Matrix W2 .9
FORTA CORP - Types Econo-Mono, Mighty-Mono, Stucco-Bond, Econo-Net, Cast-Master, Super- Net, Ult ra-Net.
PROPEX OPERATING COMPANY L L c
-
Type FM 1.5, Stealth.
3. Metal Lath - 3/8 in. rib, 3.4 lb/sq yd expanded steel; tied t o each joist at every other rib wit h 13 SWG 2-5/8 in. long
lath clips. Selvage overlap wire-tied midway between joists with 18 SWG galv steel wire. As an alt ernate, t he form
material for the concrete may be corrugat ed st eel deck 9/16 in . deep of 28 MSG (or heavier) galv steel welded to
supports 15 in. OC using welding washers. When corrugated steel deck is substituted for metal lath, t he concrete
thickness shall be measured from the surface of the concrete t o t he t op of the steel deck corrugations.
4. Bridging - Steel bars, - 3/8 in. diam, welded to the top and bottom chord of each j oist.
5. Steel Joists - Type 10J2 or lOKl, min size; spaced 24 in. OC, welded to end supports.
SA. (Not shown) - As an alternate to Items 2, 3, 4 and 5, the following components may be used:
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(1) Welded Wire Fabric - min. 6 x 6 - W2.0 x W2.0
(2) Structural Steel Members* - Hambro joists, min nom depth 10 in., when hanger wires are
suspended from joists' bottom chord, max spacing 49-1/4 in. O.C. greater joist spacing may be
used when hanger clips (Item 6A) is used.
HAMBRO STRUCTURAL SYSTEMS, DIV OF CANAM STEEL CORP - Types DSOOLH, D- SOO. As
alternates to the DSOO joists, mini joists designated TC and RTC maybe used for max spans of S ft
O in. and 8 ft O in. respectively. The concrete is cast on removable plywood forms. Min concrete
slab thickness for use with Item SA:
Restrained o r
Unrestrained Assembly
Rating Hr
Concrete
Thkns In.
1-1/2
2- 1/2
2
3
3
4
SB. (Not Shown) - As an alternate to items 2, 3, 4, Sand SA., the following components may be used:
(1) Welded Wire Fabric - Reinforcement as per ACI latest Specification disregarding the steel
deck.
(2) Structural Steel Members* - Vescom composit e joists, min nom . depth 10 in., When
ceiling hanger wires are suspended from bottom chord of j oists, max joist spacing is 48 in. OC.
Greater joist spacings may be used when hanger clips { Item 6A) are used for ceiling hanger wires.
VESCOM STRUCTURAL SYSTEMS INC - Type V.
(3) Steel Form Units - Min l -S/1 6 in. deep 24 gauge uncoated or galv corrugated steel, welded
to supports lS in . OC using welding washers.
(4) The min concrete slab topping thickness for use with Item SB, as measured from the top plane
of the steel form units shall be as soecified below:
Restrained or
Unrestrained Assembly
Rating Hr
Concrete
Thkns In.
1- 1/2
2
2
2- 3/16
3
3-3/16
SC. (Not shown.) - As an alternate to Items 2, 3 and 4, the following components may be used:
( 1) Steel Floor and Form Units - 1- 1/2 in. deep, 22 gauge uncoated or galv fluted steel floor
units. Steel form units min 9/16 in. deep, 28 gauge uncoated or galv. may be used. When 9/ 16 in.
form deck is used a min of 1 In. cover above the top elevation of the top chord must be
maintained and the steel form deck shall not be considered In evaluating t he load carrying
capacity of the floor. The steel floor and form units shall not be considered in calcu lating the load
carrying capacity of the floor.
(2) Welded Wire Fabric/Rei nforcing Bars - As required to develop t he structural capacity of
the floor in accordance with the applicable ACI specifications.
(3) Structura l Steel Me mbers * - Hambro joists, min nominal depth 10 In., max spacing 48 in .
OC. Greater joist spacing may be used when hanger clips {Item 6A) are used for ceiling hanger
wires.
HAMBRO STRUCTURAL SYSTEMS, DIV OF CANAM STEEL CORP - Type MD2000. As
alternates to MD 2000 j oists, mini joists designated MD and RMD may be used for S ft O in. and 8
ft O in., respectively.
Min concrete slab t hickness, as measured from the bottom of the steel floor units, with Item SC(3)
is 4 in. for all Restrained and Unrestrained Assembly Ratings.
SD. (Not shown. ) - As an alternate to Items 2, 3, 4, S, SA, SB and SC, t he following components may be used :
( 1) Steel Joist or Joist Girder - Composite or noncomposite. Welded or bolted to end supports.
Min 8 in. deep, spaced max 48 in. OC. Designed per SJ.I. Specifications for a max tensile stress
of 30 ksi. May be either uncoated or provided with a shop coat of paint . Top and bottom chords
shall each consist of two angles with a min total area of O.S21 and 0.4 12 sq in., respectively. Web
members shall be either round bars or angles. Min area of the end diagonal web shall of 0.307 sq
in. Min area of each of the first four interior diagonal webs shall be 0.277 sq in. All other interior
webs shall have a min area of 0.196 sq In.
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(2) Steel Floor or Form Unit Accessorie s • - Threaded shear connectors, screwed into the top
chord of joist through the steel floor units. Shear connector spacing and attachment shall be as
recommended by t he Steel Joist or Girder manufacturer.
ELCO CONSTRUCTION PRODUCTS - Types SHEARFLEX, SHEARFLEX HD for use with the
ECOSPAN Composite Floor System only.
(3) Welded W i re Fabric - Min 6x6-Wl.4xW1.4.
(4) Steel Floor and Form Units • - Minimum 9/16 in. deep stee form deck or 1-1/2 to 3 in.
deep composite or non-composite fluted or cellular units, welded to joist 12 in. OC. Mi n gauge is
28 MSG. Adjacent units button-punched, welded or screwed together 36 in. OC max along side
joints. The concrete thickness shall be measured to the top plane of t he steel deck.
VULCRAFT, DIV OF NUCOR CORP - 24 through 36 in. wide, Types 0.6C, 1.0C, 1.SC, 1.SVLR ,
1.SVL, 1.SVLI, 1.SVLP, 24 or 36 in. wide, Types 2VLI, 2VLP, 3VLI, 3VLP.
VERCO DECKING INC - A NUCOR CO HSB, Vercor. Units may be phos/ptd.
24 , 30 or 36 in. wide Types PLB and B Formlock, PLB,
(S) The min concrete slab topping thickness for use with Item SD, as measured from the top plane
of the steel fo rm units sh aII b e as soeci f ied be Iow:
Re strained or
Unrestrained Assembly
Rating Hr
Concrete
Thkns In.
1-1/2
2-1/2
2
2-1/2
3
3-1/4
SE. (Not shown.) - As an alternate to Items 2, 3, 4, S, SA, SB, SC and SD the following components may be used:
(1) Steel Joist or Joist Girder - Composite or noncomposite. Welded or bolted to end supports.
Min 8 in. deep, spaced max 48 in. OC. Designed per S.J.I. Specifications for a max tensile stress
of 30 ksi. May be either uncoated or provided with a shop coat of paint . Top and bottom chords
shall each consist of two angles with a min total area of O.S21 and 0.412 sq in., respectively. Web
members shall be either round bars or angles. Min area of the end diagonal web shall of 0.307 sq
in. Min area of each of the first four interior diagonal webs shall be 0.277 sq in. All other interior
webs shall have a min area of 0. 196 sq in.
(2) Shear Connector - (Optiona l) - Studs, min 3/8 In. diam headed t ype or equivalent per
A.l.S.C. specifications. Welded to the top chord of joist through the steel floor units. Stud welding,
as recommended by the stud manufacturer, should be followed.
(3) Welded Wire Fabric - Min 6x6-Wl.4xW1.4.
(4) Stee l Floor and Form Units• - Minimum 9/16 in. deep steel form deck or 1-1/2 to 3 in.
deep composite or non-composite fluted or cellular, uncoated, painted or galv, units, welded to
Joist 12 in. OC. Min gauge is 28 MSG. Adjacent units button-punched, welded or screwed together
36 in. OC max along side joints. The concrete t hickness shall be measured to the top plane of the
steel deck.
NEW MILLENNIUM BUILDING SYSTEMS L L
l.SFD, l.SCDR, 1.SCD, 1.SCDI, 2.0CD, 3.0CD.
c-
24 through 36 in. wide, Types 0.6FD, l.OFD,
(S) The min concrete slab topping thickness for use with Item SE, as measured from the top plane
of the steel form units shall be as specified below:
Restrained or
Unrestrained Assembly
Rating Hr
Concrete
Thkns In.
1-1/2
2-1/2
2
2-1/2
3
3-1/4
6. Hanger Wire - No. 12 SWG galv steel wire twist-tied to steel Joists. When the cei ling consists of nom 24 by 24 or 24
by 48 in. panels, hanger wires spaced max of 48 in OC on main runners adjacent to cross tee intersections. One hanger
wire to occur at all four corners of light fixtures, at midspan of cross tees adjacent to 4 f t light f ixtures and air duct
outlets, and adjacent to each main runner splice. When the ceiling consists of nom 20 by 60 in. panels, hanger wires shall
be spaced 40 in. O.C. along main runners, one wire shall occu r at each corner of light fixtures, at midspan of all cross tees
and adjacent to each main runner splice. When Type D SOO or Type v joists (Items SA or SB) or steel joists or joist
girders (Item D) are used, the hanger wires may be tied to t he joists' bottom chord or to hanger clips (Item 6A.)
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6A . Hanger Clips - For use with Type DSOO (Item SA), Type V (Item SB) joist or steel joists or joist girders (Item D), as
an alternate method for support of hanger wires. Galv steel angles, 3/4 in. long 3/32 in. thick with 1- 1/8 in. horizontal
and 7/8 in. vertical legs. Vertical leg provided with a S/16 in. diam hole to accommodate hanger wire. Horizontal leg
provided with a 3/16 in. diam hole for insertion of fast ener hanger clip secured to underside of concrete floor (Item SA) or
through the crest of the form units into the concrete (Item SB), using nominal 1-3/8 in. long, 0.14S in . diam shank with
0.300 in. diam head, powder-d riven galv steel fastener.
7. Fixture Stabilizer - One per fixture assembly No. 16 MSG painted steel channel, formed as a yoke, secured to web
at midspan of cross tee on each side of fixture. As an alternate, a vertical No. 12 SWG galv steel hanger wire located near
midpoint of cross tee on each side of light fixtures may be used. The wire shall be installed with approx 1/8 in. of slack.
8. Fixture Protection - Acoustical Material * - S/8 in. thick, cut into pieces to form a five sided enclosure,
trapezoidal in cross-section, approx 1/2 in. longer and wider t han the fixtu re with sufficient depth to provide at least S/8
in. clearance between the top of the fixture and the enclosure. For 2 by 4 ft fixture the protection consists of a 23-3/4 by
47-3/4 in. top piece, two 6 by 47-3/4 in. side pieces, and two 4- 1/2 by 23-3/4 in. end pieces. For 20 by 60 in. fixture the
protection consists of a nom 20 by 60 in. top piece, two nom 6 by 60 in. side pieces, and two nom 4- 1/2 by 20 in. end
pieces. The top edge of each fixt ure protection side piece may be provided with a 1 in. deep by max 20 in. long notch
near its midpoint. The pieces are held toget her by 8d nails spaced 8 in. O.C. min . (S)=surface perforations.
ARMSTRONG WORLD INDUSTRIES INC - Type S/8 in P (S).
9. Fixtures, Recessed Light - (Bearing t he UL Listing Ma rk). Fluorescent lamp type, steel housing, 2 by 4 ft or 20 by
60 in. size. Fixtures spaced so their area does not exceed 20 sq ft per 100 sq ft of ceiling area. Wired in conformance with
the National Electrical Code. Fixtures and ballasts must be considered for these ambient temperature conditions before
installation.
9A. Fixture Sta bilizer+ - (Not shown) - For use with the Type 16SO metal pans (See Item 12D); one min 0.047 in.
thick (16 MSG) galv steel channel yoke per light fixture, secured to the web at midspan of cross t ee on each side of
fixture.
9B. Fixture Stabilizer+ - {Not shown) - As an alternate to item 9A - Min. 0.020 in. thick (25 MSG) painted steel
spacer bar formed as an angle with 1 in. legs and hemmed edges and slots perpendicular to and near the ends of t he
spacer bar for engaging over the bulb of the tees. Engaged over the bulb at midspan of the cross tees on each side of all
light fixtures and over the bulb of the adjacent cross tee.
10. Air Duct - Min 0.029 in. thick (22 gauge) galv steel. When ceiling is composed of nom 24 by 48 in. or 20 by 60 in.
lay-in panels, the total area of duct openings not to exceed S76 sq in . per each 100 sq ft of ceiling area. Area of individual
duct opening not to exceed S76 sq in. with max dimension of opening 30 in. When hinged door damper is used over duct
outlet and the cei ling is composed of nom 24 by 24 in. lay-in panels, the t otal area of duct openings not to exceed 113 sq
in. per 100 sq ft of ceiling area. Area of Individual duct opening not to exceed 113 sq in . with max dimension of opening
12 in. Duct supported by 1-1/2 in., 16 MSG painted steel channels spaced 48 in. OC suspended by 12 SWG galv steel
wire.
11. Damper - Min 0.070 in . thick (14 gauge) galv steel. Protected on bot h surfaces with 1/16 in. ceramic fiber paper
and held open with a Fusible Link (Bearing the UL Listing Mark) . Damper t o overlap duct outlet 1 in. min.
12. Steel Framing Members * - Main runners and cross tees in combinations listed below:
A. Main runners nom 12 ft long spaced 48 in. OC. Cross tees nom 4 ft long installed perpendicular
to main runners and spaced 24 In. OC. When nom 24 by 24 in. lay-in panels are used, cross tees
nom 2 ft long installed perpendicular to 4 ft cross tees midway between main runners. For 24 by
24 or 48 in. lay-in panels.
ARMSTRONG WORLD INDUSTRIES INC - Types AFG, AFG-A. When the Type AFG-A steel
framing members are used, the Assembly and Beam Ratings are 2 hr max. Types AFG-MX and
AFG-LT steel framing members for use with 24 by 24 in. panels. When Type AFG-MX or AFG- LT
steel framing members are used, the assembly and beam ratings are 2 hr. Type GLBP (consisting
of main runners, 4 ft cross tees and steel straps) for use with 24 by 48 in. Type P or PC lay-in
panels.
BAILEY METAL PRODUCTS LTD - Type BEF.
CERTAINTEED CORP - Types FSS2- 12- 1S, FSS4- 12- 1S and FSS12- 12- 1S.
CHICAGO METALUC CORP - Types 250, 12SO, 18SO.
B. Main runners - 10 or 12 ft long, spaced 4 ft OC. Cross tees - nom 4 ft long, installed
perpendicular to main runners, spaced 2 ft OC. When nom 2 by 2 ft lay-in panels are used, nom 2
ft long cross tees installed perpendicular to 4 ft cross tees at midspan, spaced 4 ft OC. Border
panels supported at walls by min . 0.016 in thick painted steel angle with 7/8 in legs or min . 0.016
in thick painted steel channel with a 1 by 1-9/ 16 by 1/z in profile.
CGC INC - Types DXL, DXLZ, SDXL, ZXLA. When ZXLA is used, all ratings are reduced by 1 hr.
USG INTERIORS LLC - Types DXL, DXLZ, SDXL, ZXLA. (When Type ZXLA is used all ratings are
reduced by 1 hr.)
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C. Main runners nom 10 ft long, spaced 60 in. OC. Cross tees nom 5 ft long, installed
perpendicular to main runners and spaced 20 in. OC. For 20 by 60 in. lay- in panels.
CHICAGO METALUC CORP - Types 250, 1250, 1850.
0. Main runners nom 10 or 12 ft long, spaced 60 in. OC. Cross tees nom 5 ft long, installed
perpendicular to main runners and spaced 20 in . OC. Border panels supported at walls by min.
0.016 in thick painted steel angle with 7/8 in legs or min. 0.016 in thick painted steel channel with
a 1 by 1-9/16 by 1/2 in profile. For 20 by 60 in. lay-in panels.
CGC INC - Types OXL • OXLZ, SOXL.
USG INTERIORS LLC - Types OXL ' OXLZ, SOXL.
12A. Steel Framing Members* - For use with metric size panels described under Item 15. Main runners nom 3000 or
3600 mm long, spaced 1200 mm OC. Cross t ees - nom 1200 mm long, installed perpendicular to main runners, spaced
600 mm OC. When nom 600 by 600 mm lay- in panels are used, tees nom 600 mm long cross tees , installed
perpendicular to 1200 mm cross t ees at midspan, spaced 1200 mm OC. Border panels supported at walls by - st eel wall
angle 7/8 in legs or channel with a 1 by 1-9/16 by 1/2 profile. For 600 by 600 or 1200 mm lay-i n panels.
USG INTERIORS LLC - Types OXL ' OXLZ, SOXL.
12B. Steel Framing Members* - Grid adapter - (Not shown) (Optional) - For use with Type 1650 metal pans (See
Item 120). Angle shaped adapter with a looped return flange; installed parallel to cross tees or main runners by engaging
return flange of adapter to the flange of the cross tee or main runner. The 48 or 24 in. long adapters are intended for use
with cross tees or main runners, respectively.
CHICAGO METALLIC CORP - Type 1650.
12C. Steel Framing Members* - Filler strips - (Not shown ) (Optional) - For use with Type 1650 metal pans. Filler
strips are 0.018 to 0.024 in. thick, steel or aluminum, 13/32 or 5/8 in. deep by 3/4 in. wide, placed between the metal
pans.
CHICAGO METALLIC CORP - Type 1650.
120. Steel Framing Members* - Metal pans - (Not shown) (Optional) - Channel-shaped metal pans in various
colors and finishes, installed perpendicular to cross tees or main runners and spaced 4 or 6 in. O.C. The flange edges of
the metal pans engage and interlock with the vertical tabs of the corresponding grid adapters with tabs 4 or 6 in. O.C.
(See Item 12B). End laps joints of the metal pans shall occur adjacent to main runners or cross tees. The metal pans shall
each be supported by at least two main runners or cross tees.
CHICAGO METALLIC CORP - Type 1650.
12E. Steel Framing Members* - 9/16 in. wide narrow flange grid may be used as an alternate to 15/16 in. wide flange
grid systems . Main runners, nom 12 ft long spaced 4 ft OC. Cross tees, nom 4 ft long, installed perpendicu lar to main
runners and spaced 2 ft OC. Cross tees, nom 2 ft long, installed perpendicular to 4 ft cross tees and spaced 4 ft OC. For
use with Type P, nom 24 by 24 in. square edge or tegular edge lay-in panels. Grid modules containing light fixtures must
employ a fixture centering clip at each corner. The 24 gauge electrogalvanized steel clip is nested on the flange of the
intersecting grid tees, has two 1-7/16 in. high legs with their sides perpendicular to each other and a U-shaped return at
the top of each leg for engaging over the bulb of the intersect ing grid tees. When 9/16 in. wide flan ge grid Is used, max
Assembly and Beam Ratings are limited to max of 2 hr.
ARMSTRONG WORLD INDUSTRIES INC - Type FSLK .
12F. Steel Framing Members* - 9/16 in. wide narrow flange grid may be used as an alternate to 15/16 in. wide flange
grid syst ems. Main runners, nom 12 ft long, spaced 4 ft OC. Cross tees, nom 4 ft long, instal led perpendicular to main
runners and spaced 2 ft OC. Cross tees, nom 2 ft long, installed perpendicular to 4 ft cross tees and spaced 4 ft OC. For
use with Type P, nom 24 by 24 in. square edge lay-in panels.
CHICAGO METALLIC CORP - Type 4050 for 1- 1/2 hr assembly and beam rat ings only.
12G. Steel Framing Members* - * Main Runners, nom 10 or 12 ft long, spaced 4 ft OC. Cross tees, nom 4 ft long,
installed perpendicular to main runners and spaced 2 ft OC. When nom 2 by 2 ft lay-in panels are used, nom 2 ft long
cross tees installed perpendicular to 4 ft cross tees at midspan, spaced 4 ft OC. For use with Type P, nom 24 in. by 24 in.
square edge lay- in panels. When Type OXLT steel framing members are used the assembly and beam ratings are 1- 1/2
hr.
CGC INC - Type OXLT.
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BXUV.G229 - Fire-resistance Ratings - ANSI/UL 263
Page 7 of 8
USG INTERIORS LLC - Type DXLT
13. Steel Framing Members* - Cross tees - As described in Item 12 t hrough 12G.
14. Hold-down Clips - No. 24 MSG spring steel, placed over cross tees 2 ft OC.
15. Acoustical Material * - Lay-in panels. Border panels supported at walls by min 0.016 in. thick (26 MSG) painted
steel angle with 7/8 in legs; or, min 0.016 in. thick (26 MSG) painted steel channel, 1- 5/8 in . deep with 1/2 in. top f lange
and 1 in. bo ttom flanqe. (Sl=surface oerforations.
Nom
Tile
Size
Restrained
Assembly
Rating Hr
Unrestrained
Assembly
Rating Hr
16 x 48
1-1/2 and 2 hr.
1- 1/2 and 2 hr.
24 x 24
1-1/2 and 2 hr.
1-1/2 and 2 hr.
20 x 60
1-1/2 and 2 hr.
1-1/ 2 and 2 hr.
24 x 48
1-1/2, 2 and 3 hr.
1-1/2, 2 and 3 hr.
ARMSTRONG WORLD INDUSTRIES INC - Type 5/8 in. p (S) 24 x 24 or 48 in. or 20 by 60 In.; or 5/8 in. PC (S) 24 x
48 in.
Type P Hourly ratings shown for 24 x 24 in. size panels apply to 600 x 600 mm size panels while ratings shown for 24 x
48 in. panels apply to 600 x 1200 mm size panels. These metric size panels may only be used with metric size grid
described under item 12A. (S) 15 mm thick 600 x 600 or 1200 mm or PC(S) 15 mm thick 600 x 1200 mm.
15A. Acoustical Materials* - Antenna Panel - (Optional, Not Shown) - When the ceiling is composed of nom 24 by 24
in. lay-in panels, a lay-in acoustical ceiling panel with integral high frequency antennae may be included in the ceiling.
Thickness, type and edge detail of antenna panel t o match surrounding acoustical ceiling panels. Antenna panel to be
installed in accordance with accompanying instructions. A max of one antenna panel may be used per each 100 sq ft of
ceiling area.
ARMSTRONG WORLD INDUSTRIES INC
16. Speaker Assemblies Classified For Fire Resistance* - (Optional, Not Shown) Optional The speaker assemblies
consist of speakers, speaker enclosures and thei r accessories. The ceiling penetration from the speaker enclosure shall not
exceed 11-7/8 by 11-7/8 in. for the square speaker enclosures and 12 in. in diam for the round speaker enclosures. The
speaker assemblies are installed in accordance with the installation instructions provided. A max of two 144 sq in. speaker
assemblies per 100 sq ft of ceiling area is allowed.
ATLAS SOUND L P
See Speaker Assemblies For Fire Resistance (CHML) for specific Types.
16A. Speaker Assemblies For Fire Resistance* - (Optional, Not Shown) - As an alternate to Item 16, speaker
panels may be included in t he ceiling. Norn 24 by 24 in. metal-framed lay-in speaker panels installed in accordance with
the accompanying installation instructions. Hanger wires are required on the main runners and on the nom 4 ft long cross
tees at all four corners of the speaker panel. Each speaker panel to be covered with a nom 24 by 24 in. panel of the same
acoustical material used in the ceiling. Acoustical material panel to be cent ered over and supported by the metal "bridge"
of the speaker panel. A max of one speaker panel is allowed per 100 sq ft of ceiling area with a min center-to-center
spacing of 10 ft between speaker panels.
17. Mineral and Fiber Boards* - (Optional, not shown ) - Applied over concrete floor with no limit on overall
thickness. When the insulation is used, the max Restrained and Unrestrained Assembly Ratings are 2 hr and the max
Unrestrained Beam Rating is 2 hr.
See Mineral and Fiber Board (CERZ) category for names of manufacturers.
18. Roof Covering - (Not shown; for use with insulation described in Item 16.) - Class A, B, or C Built-up Roof
Covering Mat erials* consisting only of felt and asphalt (or coal tar pitch) materials in alternate layers. See Building
Materials Directory.
* Indicates such products shall bear the UL or cUL Certification Mark for jurisdictions employing the UL or cUL Certification
(such as Canada ), respectively.
Last Uodated on 20 15-05- 18
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