THOMSON CANFLEX® Flexible Metal Hose and Expansion Joints GASKETS • SEALS • VALVES • FITTINGS Fluid Containment and Control Specialists Since 1967 www.arthomson.com Corporate Profile Ft. McMurray Clairmont (GP) Edmonton Prince George Parksville Surrey Red Deer Trail Saskatoon Regina Calgary Winnipeg Thunder Bay Pointe-Claire, PQ New Brunswick Dartmouth Sarnia a.r. thomson group was established in 1967 as a regional manufacturer/distributor of gaskets and other fluid sealing products. With the rapid growth of oil and gas production, petrochemical refining, pulp and paper industries, our manufacturing facilities have been expanded to meet increased demand for these products. We manufacture a wide variety of gaskets by forming, CNC machining, Laser/Waterjet cutting, stamping, and winding operations. In addition to gaskets, we manufacture die-form packing for pumps, valves and fabricate seal specialties for the oil production industry and now flexible metal hose. Our flexible metal hoses are manufactured by certified B or C pressure welders and our product is backed by a Canada wide CRN (Canadian Registered Number). With our 24-hour service and 17 locations across Canada, six Alberta based; we can quickly manufacture and ship product direct or to your local A.R. Thomson branch. Mississauga surrey, bc edmonton, ab red deer, ab A.R. Thomson Group Locations BRITISH COLUMBIA *Surrey 3420 - 189 Street V3Z 1A7 Phone: 604-507-6050 Fax: 604-507-6098 Parksville Prince George Trail #8, 1009 Allsbrook Rd. V9P 2A9 Phone: 250-954-1543 Fax: 250-954-1591 #7, 1839 - 1 Avenue V2L 2Y8 Phone: 250-563-1444 Fax: 250-563-2644 Resident Sales Rep. Phone: 250-368-1239 Fax: 604-507-6098 ALBERTA Calgary *Edmonton #7, 6320 - 11 Street SE T2H 2L7 Phone: 403-253-0161 Fax: 403-258-0394 10030 - 31 Avenue T6N 1G4 Phone: 780-450-8080 Fax: 780-463-2021 SASKATCHEWAN *Regina 707E McDonald Street S4N 5M2 Phone: 306-584-2422 Fax: 306-584-2599 Thunder Bay * Denotes manufacturing location Clairmont (GP) 230F Mackay Crescent T9H 5C6 Phone: 780-790-0730 Fax: 780-790-0278 #102, 6902 - 98 Street T0H 0W0 Phone: 780-538-1792 Fax: 780-538-3488 MANITOBA ONTARIO *Sarnia Saskatoon Winnipeg 707E McDonald Street S4N 5M2 Phone: 306-584-2422 Fax: 306-584-2599 Resident Sales Rep. Phone: 204-999-3997 Fax: 306-584-2599 281 Campbell Street N7T 2H2 Phone: 519-336-3678 Fax: 519-336-0589 QUEBEC NEW BRUNSWICK NOVA SCOTIA Resident Sales Rep. Phone: 506-623-9254 Fax: 506-773-3048 Dartmouth *Pointe-Claire, PQ Resident Sales Rep. Phone: 807-623-0641 Fax: 807-623-5480 *Fort McMurray 294 Labrosse H9R 5L8 Phone: (514) 694-2442 Fax: (514) 694-2445 #32, 10 Morris Drive B3B 1M2 Phone: 902-468-9120 Fax: 902-468-9087 *Red Deer County 215 Clearskye Way T4E 0A1 Phone: 403-341-4511 Fax: 403-341-4243 Mississauga #1A, 3350 Ridgeway Dr. L5L 5Z9 Phone: 905-607-6587 Fax: 905-607-6994 Hose Specifications page 01 / 06 Our corrugated metal hose comes in a variety of materials and braid layers to suit your specific requirements. The hose’s flexibility compensates for vibration, movement, and off axis alignment between machinery. If you are unsure of what type of hose material your application will require, see the Corrosion Evaluation Data section for clarification. standard pitch corrugated hose tolerances close pitch corrugated hose Hose Size 1/4” - 1/2” 3/4” - 2” 2-1/2” - 4” 6” - 8” I.D. Tolerance ±0.015 ±0.020 ±0.025 ±0.030 material designations Component Common Designation ASTM Designation Grade 304L ASTM A240 304L hose 316L ASTM A240 316L 321 ASTM A240 321 Monel 400 ASTM B127 (UNS N04400) 304L ASTM A580 304L ASTM A580 316L ASTM B164 (UNS N04400) braid 316L Monel 400 Hose Specifications page 02 / 06 P3 1-Braid Standard/Close Pitch Corrugated Hose Nominal Size no. of br aids I.D. (inch) O.D. (inch) MAWP @ 70°F (PSI) note 2 burst pressure 70°F (PSI) note 1 centerline bend r adius (inch) dynamic / static T (inch) P (inch) aver age 1/4” 1 0.24 0.38 2360 9440 3.15 / 1.10 0.006 0.084 5/16” 1 0.32 0.48 1647 6588 4.85 / 1.23 0.006 0.087 3/8” 1 0.40 0.56 1639 6556 5.08 / 1.52 0.006 0.102 1/2” 1 0.48 0.66 1225 4900 5.47 / 1.75 0.006 0.122 5/8” 1 0.64 0.85 1124 4495 6.28 / 2.21 0.007 0.146 3/4” 1 0.80 1.05 980 3920 6.58 / 2.65 0.007 0.156 1” 1 1.00 1.27 693 2770 7.50 / 3.33 0.008 0.169 1-1/4” 1 1.33 1.62 600 2400 10.20 / 4.10 0.009 0.174 1-1/2” 1 1.57 1.95 557 2228 11.75 / 5.08 0.010 0.218 2” 1 1.98 2.38 570 2280 12.55 / 6.27 0.010 0.222 Nominal no. of I.D. O.D. MAWP @ 70˚F burst pressure centerline bend size br aids(inch) (inch) (PSI) note 2 70˚F (PSI) r adius (inch) note 1 dynamic / static T (inch) P (inch) ma x / min 1/4” 0.008 0.091 / 0.083 0.008 0.111 / 0.100 0.008 0.107 / 0.097 0.010 0.138 / 0.121 0.010 0.162 / 0.146 0.012 0.211 / 0.185 0.012 0.255 / 0.218 0.012 0.226 / 0.197 Note : P3 hose dimensions are from Penflex P3 Hose Dimensions sheet. Type 621 – 321 Close Pitch Corrugated Hose with SB 304L/316L Braid 1 0.31 0.57 1376 5505 3.00 / 1.00 20.64 20098037 3/8” 1 0.43 0.74 1205 4822 3.50 / 1.25 20.81 17607040 1/2” 1 0.57 0.89 1053 4214 4.00 / 1.50 20.96 15386152 3/4” 1 0.90 1.28 792 3168 6.00 / 2.25 21.35 11624650 1” 1 1.15 1.55 571 2285 7.00 / 2.75 21.63 8343336 1-1/4” 1 1.32 1.93 499 1996 8.00 / 3.00 22.02 7282914 1-1/2” 1 1.65 2.28 407 1631 9.00 / 3.50 22.37 5952381 2” 1 2.03 2.61 309 1235 22.71 4511803 10.25 / 4.00 Hose Specifications page 03 / 06 Type 704/716/721 – 304L/316L/321 Standard Pitch Corrugated Hose with SB 304L/316L Braid Nominal no. of I.D. O.D. MAWP @ 70˚F burst pressure centerline bend size br aids(inch) (inch) (PSI) note 2 70˚F (PSI) r adius (inch) note 1 dynamic / static T (inch) P (inch) ma x / min 1/4” 0.010 0.116/ 0.104 0.010 0.150 / 0.136 0.010 0.150 / 0.136 0.015 0.203 / 0.191 0.015 0.245 / 0.226 0.015 0.267 / 0.245 0.015 0.293 / 0.267 0.015 0.308 / 0.279 0.015 0.414 / 0.364 0.015 0.444 / 0.387 27.00 / 13.00 0.015 0.444 / 0.387 31.00 / 18.00 0.018 0.522 / 0.444 36.00 / 19.00 0.018 0.522 / 0.444 33.50 / 29.50 0.024 0.667 / 0.545 37.50 / 33.50 0.024 0.750 / 0.600 55.50 / 47.50 0.028 0.857 / 0.667 70.00 / 35.00 0.039 0.800 / 1.000 1 0.31 0.57 1954 7815 5.00 / 1.00 20.64 310412415 3/8” 1 0.43 0.74 1331 5325 5.50 / 1.25 20.81 19447774 1/2” 1 0.56 0.89 824 3295 6.00 / 1.50 20.96 12264905 3/4” 1 0.80 1.28 700 2799 8.00 / 2.25 21.35 10224086 1” 1 1.06 1.58 571 2285 9.00 / 2.75 21.65 9143654 1-1/4” 1 1.33 1.93 531 2125 10.50 / 3.50 22.02 7763102 1-1/2” 1 1.66 2.28 472 1887 12.00 / 4.00 22.37 6892755 2” 1 2.00 2.72 516 2064 15.00 / 5.00 22.84 7573030 2-1/2” 1 2.55 3.33 387 1548 20.00 / 8.00 23.43 6182472 3” 1 3.00 3.88 316 1264 22.00 / 9.00 23.98 4611845 4” 1 4.00 4.98 232 927 25.10 3381353 5” 1 5.00 6.03 182 729 26.15 2661064 6” 1 6.00 7.10 126 503 27.33 2621050 8” 1 7.87 9.19 218 870 29.28 3741495 10” 1 9.82 11.32 211 843 211.45 3081231 12” 1 11.79 13.37 161 643 213.50 245939 14” 1 13.20 14.84 119 476 214.98 190762 Hose Specifications page 04 / 06 Type 740 – Monel 400 Standard Pitch Corrugated Hose with MB Monel 400 Nominal no. of I.D. O.D. MAWP @ 70˚F burst pressure centerline bend size br aids(inch) (inch) (PSI) note 2 70˚F (PSI) r adius (inch) note 1 dynamic / static T (inch) P (inch) ma x / min 1/4” 0.010 0.117 / 0.104 0.012 0.150 / 0.136 0.015 0.203 / 0.191 9.00 / 3.00 0.015 0.240 / 0.226 12.00 / 4.00 0.015 0.293 / 0.267 15.00 / 5.00 0.015 0.308 / 0.279 22.00 / 9.00 0.015 0.444 / 0.387 1 0.31 0.58 1418 5675 5.00 / 1.00 20.66 20718285 1/2” 1 0.56 0.90 701 2805 8.00 / 1.50 20.98 10244095 3/4” 1 0.80 1.29 542 2171 8.00 / 2.00 21.38 8673469 1” 1 1.06 1.58 464 1857 21.66 6782711 1-1/2” 1 1.66 2.27 330 1322 22.35 4821930 2” 1 2.00 2.59 316 1266 22.67 4621848 3” 1 3.00 3.88 197 788 23.98 3151258 Type 816/821 – 304L / 316L / 321 Close Pitch Corrugated Hose with SHB 304L / 316L Braid Nominal no. of I.D. O.D. MAWP @ 70˚F burst pressure centerline bend size br aids(inch) (inch) (PSI) note 2 70˚F (PSI) r adius (inch) note 1 dynamic / static T (inch) P (inch) ma x / min 1/2” 8.00 / 1.50 0.015 0.111 / 0.097 8.00 / 2.00 0.018 0.158 / 0.136 9.00 / 3.00 0.018 0.174 / 0.156 10.00 / 3.25 0.020 0.203 / 0.191 10.00 / 3.25 0.020 0.293 / 0.267 11.50 / 5.38 0.020 0.226 / 0.211 24.00 / 7.00 0.020 0.267 / 0.245 28.00 / 7.50 0.024 0.324 / 0.293 40.00 / 20.00 0.024 0.445 / 0.387 95.00 / 24.00 0.024 0.522 / 0.444 1 0.55 0.92 2194 8777 21.02 326713067 3/4” 1 0.80 1.31 1311 5244 21.41 19147656 1” 1 1.06 1.60 1069 4276 21.70 17106840 1-1/4” 1 1.33 1.97 1110 4443 22.10 15886353 1-1/2” 1 1.66 2.30 868 3472 22.43 13885552 2” 1 2.01 2.64 808 3231 22.76 11794717 2-1/2” 1 2.55 3.36 578 2312 23.49 9153663 3” 1 3.00 3.91 540 2160 24.03 7883154 4” 1 4.00 4.93 333 1332 25.05 4861945 35.17 7583035 6” 1 6.00 7.10 266 1062 27.33 4011606 Hose Specifications page 05 / 06 Type 916 – 316L Close Pitch Corrugated Hose with HTSB 304L / 316L Braid Nominal no. of I.D. O.D. MAWP @ 70˚F burst pressure centerline bend size br aids(inch) (inch) (PSI) note 2 70˚F (PSI) r adius (inch) note 1 dynamic / static T P (inch) (inch)aver age 1/4” 12.00 / 6.00 0.012 0.067 12.00 / 6.00 0.012 0.067 14.00 / 7.00 0.015 0.100 15.00 / 7.50 0.020 0.126 0.020 0.150 0.025 0.171 0.025 0.188 0.025 0.214 1 0.31 0.58 2184 8735 20.64 318812753 3/8” 1 0.43 0.75 1921 7682 20.83 280411216 1/2” 1 0.56 0.92 2102 8406 21.02 306812273 3/4” 1 0.80 1.22 1986 7944 21.34 289911598 1” 1 1.05 1.65 1599 6397 16.00 / 8.00 21.77 23359340 1-1/4” 1 1.33 1.97 1317 5270 18.00 / 9.00 22.09 21078431 1-1/2” 1 1.66 2.31 1062 4247 19.00 / 9.50 22.43 15506201 2” 1 2.00 2.64 842 3368 24.00 / 12.00 22.77 13465388 32.90 21558620 Type 1221 – 321 Close Pitch Corrugated Hose with SHB – 304L Braid Nominal no. of I.D. O.D. MAWP @ 70˚F burst pressure T P (inch) size br aids(inch) (inch) (PSI) note 2 70˚F (PSI) (inch)aver age note 1 3” 3 2.90 3.745 130552200.028 0.30 Note 1: Burst pressures are derived from A.R. Thomson Group burst test results Note 2: Maximum allowable working pressure (MAWP) is 0.25 of burst test pressure Note 3: Hose dimensions are from Penflex catalogues DH-EN-08 (01) & DS-EN-1000 (02) Note 4: Double braids burst test pressures are 1.46 times of single braid burst test pressure Hose Specifications page 06 / 06 As the operating temperature of a hose assembly increases, the maximum working pressure decreases. Pressure rating in the data sections of this catalogue are valid at 70ºF. For operating temperatures in excess of 70°F the maximum working pressure must be decreased according to the Correction Factors chart listed below. CORRECTION FACTORS FOR ELEVATED TEMPERATURES ASTM Designation Br aid Material A580 304L 316L B164 (UNS N04400) working temper ature correction factor - 425 1 1 0 -325 -70 1 1 1 1 1 1 -50 1 1 1 -20 1 1 1 70 1 1 1 100 1 1 1 150 1 1 0.94 200 1 1 0.88 250 1 1 0.85 300 1 1 0.82 350 0.97 0.97 0.8 400 0.93 0.93 0.79 450 0.91 0.91 0.79 500 0.88 0.86 0.79 550 0.86 0.83 0.79 600 0.83 0.8 0.79 650 0.82 0.79 0.79 700 0.80 0.77 0.79 750 0.79 0.75 0.77 800 0.77 0.74 0.76 850 0.76 0.72 0.65 900 0.71 0.7 0.47 950 0.59 0.68 0 1000 0.46 0.67 0 1050 0.37 0.64 0 1100 0.3 0.61 0 1150 0.23 0.52 0 1200 0.19 0.38 0 01. Determine the maximum operating temperature 1250 0.15 0.28 0 02. Locate appropriate correction factor on the chart 1300 0.12 0.2 0 1350 0.10 0.14 0 1400 0.06 0.1 0 03. Multiply the correction factor by maximum work- ing pressure (MAWP) at 70º F psig specified for desired product. 1450 0.05 0.07 0 1500 0.05 0.05 0 procedure for temperature adjustment: End Fittings and Flange Adjustments page 01 / 15 attachments After selecting the hose type for your application you must then select the correct fittings. We provide our end fittings and flange attachments in a wide variety of sizes and materials to facilitate a broad range of connections. All fittings and flanges are welded to the hose and tested by means of Die Penetrant and Hydraulic Pressure Testing. npt pipe nipple (asme b36.10m) schedule 40 NPS L T I.D. O.D. (inch)(npt) (inch) (inch) A106 Gr. B MAWP @ 70°F (psi) A53 A312 TYPE B165 Gr. A / Gr. B 304L / 316L 1/4 2 - 3 1/4 - 18 0.36 0.54 2026 1722 1798 2368 3/8 2 - 3 3/8 - 18 0.49 0.68 1740 1479 1543 2033 1/2 2 - 3 1/2 - 14 0.62 0.84 1511 1284 1340 1766 3/4 2 - 3 3/4 - 14 0.82 1.05 1313 1116 1165 1535 1 1-1/4 - 3 1 - 11-1/2 1.05 1.32 1172 996 1040 1370 1.38 1.66 1047 890 928 1223 1-1/2 1-1/4 - 3 1-1/2 - 1.61 11-1/2 1.90 989 840 877 1155 2 1-1/4 - 3 2 - 11-1/2 2.07 2.38 897 763 796 1049 2-1/2 1-1/4 - 3 2-1/2 - 8 2.47 2.88 883 750 783 1032 3 1-1/4 - 3 3 - 8 3.07 3.50 830 706 736 970 4 3 - 3-1/2 4 - 8 4.03 4.50 778 661 690 932 5 4 - 4-1/2 5 - 8 5.05 5.56 736 626 653 909 6 4 - 4-1/2 6 - 8 6.07 6.63 712 605 632 ---- 1-1/4 1-1/4 - 3 1-1/4 - 11-1/2 schedule 80 NPS L T I.D. O.D. (inch)(npt) (inch) (inch) A106 Gr. B MAWP @ 70°F (psi) A53 A53 A312 TYPE Gr. A Gr. B 304L/316L B165 1/4 2 - 3 1/4 - 18 0.30 0.54 3879 4437 3441 4534 3/8 2 - 3 3/8 - 18 0.42 0.68 3383 3869 3001 3954 1/2 2 - 3 1/2 - 14 0.55 0.84 2922 3342 2592 3415 3/4 2 - 3 3/4 - 14 0.74 1.05 2513 2875 2230 2937 1 1-1/4 - 3 1 - 11-1/2 0.96 1.32 2236 2558 1984 2614 1.28 1.66 1973 2257 1750 2306 1-1/2 1-1/4 - 3 1-1/2 - 1.50 11-1/2 1.90 1858 2125 1648 2171 2 1-1/4 - 3 2 - 11-1/2 1.94 2.38 1702 1946 1510 1989 2-1/2 1-1/4 - 3 2-1/2 - 8 2.32 2.88 1639 1875 1454 1916 3 1-1/4 - 3 3 - 8 2.90 3.50 1543 1764 1368 1803 4 3 - 3-1/2 4 - 8 3.83 4.50 1435 1641 1273 1728 5 4 - 4-1/2 5 - 8 4.81 5.56 1356 1551 1203 1677 6 4 - 4-1/2 6 - 8 5.76 6.63 1389 1589 1232 ---- 1-1/4 1-1/4 - 3 1-1/4 - 11-1/2 Note: Pressure and dimensioning data may vary depending on supplier and is for reference only! End Fittings and Flange Adjustments page 02 / 15 ssp butt weld female 37˚ swivel connector (stainless steel only) Weld T (UNF) L I.D. 1 I.D. 2 L1 W Hex W1 Hex MAWP Size (inch)(inch)(inch)(inch)(inch)(inch)(psi) 1/4 7/16 - 20 1.41 0.25 0.17 0.35 9/16 9/16 5000 3/8 9/16 - 18 1.55 0.38 0.30 0.38 11/16 11/16 4500 1/2 3/4 - 16 1.68 0.50 0.39 0.43 7/8 7/8 4000 1/2 7/8 - 14 1.75 0.50 0.48 0.51 1 7/8 4000 3/4 1-1/16 - 12 1.83 0.75 0.61 0.57 1-1/4 1-1/16 3500 1 1-5/16 - 12 1.98 1.00 0.84 0.60 1-1/2 1-5/16 2500 1-1/4 1-5/8 - 12 2.25 1.25 1.08 0.63 2 1-3/4 2500 1-1/2 1-7/8 - 12 2.51 1.50 1.31 0.74 2-1/4 2 2000 2 2-1/2 - 12 2.93 2.00 1.78 0.94 2-7/8 2-1/2 1500 Note: Pressure and dimensioning data may vary depending on supplier and is for reference only! butt weld male pipe hexagon nipple W Hex L L1 (inch) (inch) N (inch) T I.D. WS (NPT) (inch) (inch) MAWP @ 70°F (psi) A108 1215 A276 Type 304L 9/16 1.31 0.63 0.25 1/4 - 18 0.27 0.56 3000 3000 11/16 1.31 0.63 0.25 3/8 - 18 0.39 0.69 3000 3000 7/8 1.56 0.81 0.31 1/2 - 14 0.52 0.88 3000 3000 1-1/16 1.56 0.81 0.31 3/4 - 14 0.69 1.06 3000 3000 1-5/16 1.81 1 0.38 1 - 11-1/2 0.94 1.31 3000 3000 1-7/8 1.06 0.56 1-1/4 - 1.27 1.88 3000 3000 1.88 3000 3000 2.06 11-1/2 1-7/8 2.06 1.06 0.56 1-1/2 - 1.52 11-1/2 Note: Pressure and dimensioning data may vary depending on supplier and is for reference only! End Fittings and Flange Adjustments page 03 / 15 reducer (asme B16.9) NPS Outside Diameter @ Bevel Large End Small End End-to-End (H) NPS Outside Diameter @ Bevel Large End Small End End-to-End (H) 3/4 X 1/2 3/4 X 3/8 1 X 3/4 1 X 1/2 1-1/4 X 1 1-1/4 X 3/4 1-1/4 X 1/2 1-1/2 X 1-1/4 1-1/2 X 1 1-1/2 X 3/4 1-1/2 X 1/2 2 X 1-1/2 2 X 1-1/4 2 X 1 2 X 3/4 2-1/2 X 2 2-1/2 X 1-1/2 2-1/2 X 1-1/4 2-1/2 X 1 3 X 2-1/2 3 X 2-1/2 3 X 1-1/2 3 X 1-1/4 3-1/2 X 3 3-1/2 X 2-1/2 3-1/2 X 2 3-1/2 X 1-1/2 3-1/2 X 1-1/4 4 X 3-1/2 4 X 3 4 X 2-1/2 4 X 2 4 X 1-1/2 5 X 4 5 X 3-1/2 5 X 3 5 X 2-1/2 5 X 2 6 X 5 6 X 4 6 X 3-1/2 6 X 3 6 X 2-1/2 1.05 1.05 1.32 1.32 1.66 1.66 1.66 1.90 1.90 1.90 1.90 2.38 2.38 2.38 2.38 2.88 2.88 2.88 2.88 3.50 3.50 3.50 3.50 4.00 4.00 4.00 4.00 4.00 4.50 4.50 4.50 4.50 4.50 5.56 5.56 5.56 5.56 5.56 6.62 6.62 6.62 6.62 6.62 1.50 1.50 2.00 2.00 2.00 2.00 2.00 2.50 2.50 2.50 2.50 3.00 3.00 3.00 3.00 3.50 3.50 3.50 3.50 3.50 3.50 3.50 3.50 4.00 4.00 4.00 4.00 4.00 4.00 4.00 4.00 4.00 4.00 5.00 5.00 5.00 5.00 5.00 5.50 5.50 5.50 5.50 5.50 8 X 6 8 X 5 8 X 4 8 X 3-1/2 10 X 8 10 X 6 10 X 5 10 X 4 12 X 10 12 X 8 12 X 6 12 X 5 14 X 12 14 X 10 14 X 8 14 X 6 8.62 8.62 8.62 8.62 10.75 10.75 10.75 10.75 12.75 12.75 12.75 12.75 14.00 14.00 14.00 14.00 6.00 6.00 6.00 6.00 7.00 7.00 7.00 7.00 8.00 8.00 8.00 8.00 13.00 13.00 13.00 13.00 0.84 0.68 1.05 0.84 1.32 1.05 0.84 1.66 1.32 1.05 0.84 1.90 1.66 1.32 1.05 2.38 1.90 1.66 1.32 2.88 2.38 1.90 1.66 3.50 2.88 2.38 1.90 1.66 4.00 3.50 2.88 2.38 1.90 4.50 4.00 3.50 2.88 2.38 5.56 4.50 4.00 3.50 2.88 6.62 5.56 4.50 4.00 8.62 6.62 5.56 4.50 10.75 8.62 6.62 5.56 12.75 10.75 8.62 6.62 End Fittings and Flange Adjustments page 04 / 15 short radius 90˚ elbow (asme B16.9) schedule 40 Size I.D. O.D. A R MAWP @ 70°F (psi) (inch) (inch) (inch) (inch) A234 A403 A403 Gr. WPB Type 304L Type 316L 1 1.05 1.32 1.00 1.00 2455 2864 1-1/41.381.661.251.252024 2361 1-1/21.611.901.501.501832 2137 2 2.07 2.382.002.001563 1824 2-1/22.472.882.502.501708 1993 3 3.07 3.50 3.003.001474 1720 4 4.03 4.50 4.004.001253 1462 5 5.05 5.56 5.005.001101 1284 6 6.07 6.626.006.00997 1163 8 7.98 8.628.008.00891 1039 Note: Pressure and dimensioning data 10 10.0210.75 10.0010.00815 951 may vary depending on supplier and is 12 11.94 12.75 12.0012.00762 889 for reference only! 14 13.12 14.0014.0014.00754 880 schedule 80 Size I.D. O.D. A R MAWP @ 70°F (psi) (inch) (inch) (inch) (inch) A234 A403 A403 Gr. WPB Type 304L Type 316L 1 0.961.32 1.001.003300 3850 1-1/41.281.661.251.252761 3222 1-1/21.501.901.501.502526 2947 2 1.94 2.382.002.002224 2594 2-1/22.322.882.502.502321 2708 3 2.903.50 3.003.002057 2400 4 3.83 4.50 4.004.001797 2097 5 4.815.56 5.005.001612 1881 6 5.76 6.626.006.001557 1817 8 7.63 8.628.008.001385 1616 Note: Pressure and dimensioning data 10 9.56 10.75 10.0010.001326 1547 may vary depending on supplier and is 12 11.37 12.75 12.0012.001295 1511 for reference only! 14 12.50 14.0014.0014.001286 1500 End Fittings and Flange Adjustments page 05 / 15 long radius 90˚ elbow (asme B16.9) schedule 40 Size I.D. O.D. A R MAWP @ 70°F (psi) (inch) (inch) (inch) (inch) A234 A403 A403 Gr. WPB Type 304L Type 316L 1/2 0.620.841.501.503143 3667 3/4 0.841.051.501.502400 2800 1 1.051.321.501.502455 2864 1-1/41.38 1.661.881.882024 2361 1-1/21.61 1.90 2.252.251832 2137 2 2.07 2.383.003.001563 1824 2-1/2 2.472.883.753.751708 1993 3 3.073.504.504.501474 1720 4 4.03 4.50 6.006.001253 1462 5 5.055.567.507.501101 1284 Note: Pressure and dimensioning data 6 6.07 6.629.009.00997 1163 may vary depending on supplier and is for reference only! 8 7.98 8.62 12.0012.00891 1039 10 10.0210.75 15.0015.00815 951 12 11.94 12.75 18.0018.00762 889 14 13.12 14.0021.0021.00754 880 schedule 80 Size I.D. O.D. A R MAWP @ 70°F (psi) (inch) (inch) (inch) (inch) A234 A403 A403 Gr. WPB Type 304L Type 316L 1/2 0.550.841.501.504143 4833 3/4 0.741.051.501.503543 4133 1 0.961.321.501.503300 3850 1-1/41.281.661.881.882761 3222 1-1/21.50 1.90 2.252.252526 2947 2 1.94 2.383.003.002224 2594 2-1/2 2.322.883.753.752321 2708 3 2.903.504.504.502057 2400 Note: Pressure and dimensioning data 4 3.83 4.50 6.006.001797 2097 may vary depending on supplier and is 5 4.815.567.507.501612 1881 for reference only! 6 5.76 6.629.009.001557 1817 8 7.63 8.62 12.0012.001385 1616 10 9.56 10.75 15.0015.001326 1547 12 11.37 12.75 18.0018.001295 1511 14 12.50 14.0021.0021.001286 1500 End Fittings and Flange Adjustments page 06 / 15 long radius 45˚ elbow (asme B16.9) schedule 40 Size I.D. O.D. A R MAWP @ 70°F (psi) (inch) (inch) (inch) (inch) A234 A403 A403 Gr. WPB Type 304L Type 316L 1/2 0.620.840.621.50 3143 3667 3/4 0.84 1.05 0.75 1.50 2400 2800 1 1.05 1.32 0.88 1.50 2455 2864 1-1/41.38 1.66 1.00 1.88 2024 2361 1-1/21.61 1.90 1.12 2.25 1832 2137 2 2.07 2.38 1.38 3.001563 1824 2-1/22.47 2.88 1.75 3.75 1708 1993 3 3.07 3.50 2.004.50 1474 1720 4 4.03 4.50 2.50 6.001253 1462 5 5.055.563.127.50 1101 1284 Note: Pressure and dimensioning data 6 6.07 6.623.75 9.00997 1163 may vary depending on supplier and is for reference only! 8 7.98 8.62 5.00 15.00891 1039 10 10.0210.75 6.25 17.00 815 951 12 11.94 12.75 7.50 21.00762 889 14 13.12 14.00 8.75 24.00754 880 schedule 80 Size I.D. O.D. A R MAWP @ 70°F (psi) (inch) (inch) (inch) (inch) A234 A403 A403 Gr. WPB Type 304L Type 316L 1/2 0.620.840.621.50 3143 3667 3/4 0.84 1.05 0.75 1.50 2400 2800 1 1.05 1.32 0.88 1.50 2455 2864 1-1/41.38 1.66 1.00 1.88 2024 2361 1-1/21.61 1.90 1.12 2.25 1832 2137 2 2.07 2.38 1.38 3.001563 1824 2-1/22.47 2.88 1.75 3.75 1708 1993 Note: Pressure and dimensioning data 3 3.07 3.50 2.004.50 1474 1720 may vary depending on supplier and is 4 4.03 4.50 2.50 6.001253 1462 for reference only! 5 5.055.563.127.50 1101 1284 6 6.07 6.623.75 9.00997 1163 8 7.98 8.62 5.00 15.00891 1039 10 10.0210.75 6.25 17.00 815 951 12 11.94 12.75 7.50 21.00762 889 14 13.12 14.00 8.75 24.00754 880 End Fittings and Flange Adjustments page 07 / 15 pipe weld end with 37-1/2˚ bevel (asme B36.10M) schedule 40 NPS I.D. O.D. (inch) (inch) A106 Gr. B 1/4 0.36 0.54 5150 3/8 0.49 0.68 4168 1/2 0.62 0.84 3996 3/4 0.82 1.05 3258 1 1.05 1.32 3047 1-1/4 1.38 1.66 2509 1-1/2 1.61 1.90 2257 2 2.07 2.38 1901 2-1/2 2.47 2.88 2079 3 3.07 3.50 1806 4 4.03 4.50 1531 5 5.05 5.56 1342 6 6.07 6.63 1219 8 7.98 8.62 1073 10 10.02 10.75 973 12 11.94 12.75 762 14 13.12 14.00 754 MAWP @ 70 ° F (psi) A312 304L A312 316L B165 4569 3697 3545 2891 2703 2226 2002 1687 1845 1602 1358 1190 1081 952 863 801 750 4569 3697 3545 2891 2703 2226 2002 1687 1845 1602 1358 1190 1081 952 863 801 750 6019 4871 4670 3808 3562 2933 2638 2222 2430 2110 1789 ------------------- Note: Pressure and dimensioning data may vary depending on supplier and is for reference only! schedule 80 NPS I.D. O.D. (inch) (inch) A106 Gr. B 1/4 0.30 0.54 5333 3/8 0.42 0.68 4588 1/2 0.55 0.84 4143 3/4 0.74 1.05 3543 1 0.96 1.32 3300 1-1/4 1.28 1.66 2761 1-1/2 1.50 1.90 2526 2 1.94 2.38 2224 2-1/2 2.32 2.88 2321 3 2.90 3.50 2057 4 3.83 4.50 1797 5 4.81 5.56 1612 6 5.76 6.63 1557 8 7.63 8.63 1385 10 9.56 10.75 1326 12 11.37 12.75 1295 14 12.50 14.00 1286 MAWP @ 70 ° F (psi) A312 304L A312 316L B165 6222 5353 4833 4133 3850 3222 2947 2594 2708 2400 2097 1881 1817 1616 1547 1511 1500 6222 5353 4833 4133 3850 3222 2947 2594 2708 2400 2097 1881 1817 1616 1547 1511 1500 5333 4588 4143 3543 3300 2761 2526 2224 2321 2057 1797 1612 1557 1385 1326 1295 1286 Note: Pressure and dimensioning data may vary depending on supplier and is for reference only! End Fittings and Flange Adjustments page 08 / 15 socket welding flanges (asme B16.5) class 150 NPS O R X B B1 D C Y B.C.D. D 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4* 5* 6* 8* 10* 12* 14* 0.62 4 0.62 4 0.62 4 0.62 4 0.62 4 0.75 4 0.75 4 0.75 4 0.75 8 0.88 8 0.88 8 0.88 8 1.00 12 1.00 12 1.12 12 3.50 3.88 4.25 4.62 5.00 6.00 7.00 7.50 9.00 10.00 11.00 13.50 16.00 19.00 21.00 1.38 1.69 2.00 2.50 2.88 3.62 4.12 5.00 6.19 7.31 8.50 10.62 12.75 15.00 16.25 1.19 1.50 1.94 2.31 2.56 3.06 3.56 4.25 5.31 6.44 7.56 9.69 12.00 14.38 15.75 0.88 1.09 1.36 1.70 1.95 2.44 2.94 3.57 4.57 5.66 6.72 8.72 10.88 12.88 14.14 0.62 0.38 0.82 0.44 1.05 0.50 1.38 0.56 1.61 0.62 2.07 0.69 2.47 0.75 3.07 0.81 4.03 0.94 5.05 0.94 6.07 1.06 7.98 1.25 10.02 1.31 12.00 1.56 13.25 1.63 0.44 0.50 0.56 0.62 0.69 0.75 0.88 0.94 0.94 0.94 1.00 1.12 1.19 1.25 1.38 0.62 0.62 0.69 0.81 0.88 1.00 1.12 1.19 1.31 1.44 1.56 1.75 1.94 2.19 2.25 2.38 2.75 3.12 3.50 3.88 4.75 5.50 6.00 7.50 8.50 9.50 11.75 14.25 17.00 18.75 # of Bolt Holes class 300 NPS O R X B B1 D C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 4 4 4 4 4 8 8 8 D # of Bolt Holes 4 4 4 4 4 8 8 8 3.75 1.38 1.50 0.88 4.62 1.69 1.88 1.09 4.88 2.00 2.12 1.36 5.25 2.50 2.50 1.70 6.12 2.88 2.75 1.95 6.50 3.62 3.31 2.44 7.50 4.12 3.94 2.94 8.25 5.00 4.62 3.57 0.62 0.82 1.05 1.38 1.61 2.07 2.47 3.07 0.38 0.44 0.50 0.56 0.62 0.69 0.75 0.81 0.56 0.62 0.69 0.75 0.81 0.88 1.00 1.12 0.88 1.00 1.06 1.06 1.19 1.31 1.50 1.69 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 class 400/600 To Be Specified By Purchaser NPS O R X B B1 D C Y B.C.D. 1/2 3.75 1.38 1.50 0.88 0.38 0.56 0.88 2.62 3/4 4.62 1.69 1.88 1.09 0.44 0.62 1.00 3.25 1 4.88 2.00 2.12 1.36 0.50 0.69 1.06 3.50 1-1/4 5.25 2.50 2.50 1.70 0.56 0.81 1.12 3.88 1-1/2 6.12 2.88 2.75 1.95 0.62 0.88 1.25 4.50 2 6.50 3.62 3.31 2.44 0.69 1.00 1.44 5.00 2-1/2 7.50 4.12 3.94 2.94 0.75 1.12 1.62 5.88 3 8.25 5.00 4.62 3.57 0.81 1.25 1.81 6.62 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 End Fittings and Flange Adjustments page 09 / 15 slip-on welding flange (asme B16.5) class 150 NPS O R X B C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 3.50 3.88 4.25 4.62 5.00 6.00 7.00 7.50 9.00 10.00 11.00 13.50 16.00 19.00 21.00 1.38 1.69 2.00 2.50 2.88 3.62 4.12 5.00 6.19 7.31 8.50 10.62 12.75 15.00 16.25 1.19 0.88 0.44 1.50 1.09 0.50 1.94 1.36 0.56 2.31 1.70 0.62 2.56 1.95 0.69 3.06 2.44 0.75 3.56 2.94 0.88 4.25 3.57 0.94 5.31 4.57 0.94 6.44 5.66 0.94 7.56 6.72 1.00 9.69 8.72 1.12 12.00 10.88 1.19 14.38 12.88 1.25 15.75 14.14 1.38 0.62 0.62 0.69 0.81 0.88 1.00 1.12 1.19 1.31 1.44 1.56 1.75 1.94 2.19 2.25 2.38 2.75 3.12 3.50 3.88 4.75 5.50 6.00 7.50 8.50 9.50 11.75 14.25 17.00 18.75 0.62 0.62 0.62 0.62 0.62 0.75 0.75 0.75 0.75 0.88 0.88 0.88 1.00 1.00 1.12 4 4 4 4 4 4 4 4 8 8 8 8 12 12 12 class 300 NPS O R X B C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 3.75 4.62 4.88 5.25 6.12 6.50 7.50 8.25 10.00 11.00 12.50 15.00 17.50 20.50 23.00 1.38 1.69 2.00 2.50 2.88 3.62 4.12 5.00 6.19 7.31 8.50 10.62 12.75 15.00 16.25 1.50 0.88 0.56 1.88 1.09 0.62 2.12 1.36 0.69 2.50 1.70 0.75 2.75 1.95 0.81 3.31 2.44 0.88 3.94 2.94 1.00 4.62 3.57 1.12 5.75 4.57 1.25 7.00 5.66 1.38 8.12 6.72 1.44 10.25 8.72 1.62 12.62 10.88 1.88 14.75 12.88 2.00 16.75 14.14 2.12 0.88 1.00 1.06 1.06 1.19 1.31 1.50 1.69 1.88 2.00 2.06 2.44 2.62 2.88 3.00 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 7.88 9.25 10.62 13.00 15.25 17.75 20.25 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 0.88 0.88 0.88 1.00 1.12 1.25 1.25 4 4 4 4 4 8 8 8 8 8 12 12 16 16 20 End Fittings and Flange Adjustments page 10 / 15 slip-on welding flange (asme B16.5) class 400 NPS O R X B C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 3.75 1.38 4.62 1.69 4.88 2.00 5.25 2.50 6.12 2.88 6.50 3.62 7.50 4.12 8.25 5.00 10.00 6.19 11.00 7.31 12.50 8.50 15.00 10.62 17.50 12.75 20.50 15.00 23.00 16.25 1.50 0.88 1.88 1.09 2.12 1.36 2.50 1.70 2.75 1.95 3.31 2.44 3.94 2.94 4.62 3.57 5.75 4.57 7.00 5.66 8.12 6.72 10.25 8.72 12.62 10.88 14.75 12.88 16.75 14.14 0.56 0.62 0.69 0.81 0.88 1.00 1.12 1.25 1.38 1.50 1.62 1.88 2.12 2.25 2.38 0.88 1.00 1.06 1.12 1.25 1.44 1.62 1.81 2.00 2.12 2.25 2.69 2.88 3.12 3.31 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 7.88 9.25 10.62 13.00 15.25 17.75 20.25 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 1.00 1.00 1.00 1.12 1.25 1.38 1.38 4 4 4 4 4 8 8 8 8 8 12 12 16 16 20 class 600 NPS O R X B C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 3.75 1.38 1.50 4.62 1.69 1.88 4.88 2.00 2.12 5.25 2.50 2.50 6.12 2.88 2.75 6.50 3.62 3.31 7.50 4.12 3.94 8.25 5.00 4.62 10.75 6.19 6.00 13.00 7.31 7.44 14.00 8.50 8.75 16.50 10.62 10.75 20.00 12.75 13.50 22.00 15.00 15.75 23.75 16.25 17.00 0.88 0.56 1.09 0.62 1.36 0.69 1.70 0.81 1.95 0.88 2.44 1.00 2.94 1.12 3.57 1.25 4.57 1.50 5.66 1.75 6.72 1.88 8.75 2.19 10.88 2.50 12.88 2.62 14.14 2.75 0.88 1.00 1.06 1.12 1.25 1.44 1.62 1.81 2.12 2.38 2.62 3.00 3.38 3.62 3.69 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 8.50 10.50 11.50 13.75 17.00 19.25 20.75 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 1.00 1.12 1.12 1.25 1.38 1.38 1.50 4 4 4 4 4 8 8 8 8 8 12 12 16 20 20 End Fittings and Flange Adjustments page 11 / 15 lapped joint flange (asme B16.5) class 150 NPS O R X B C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 3.50 3.88 4.25 4.62 5.00 6.00 7.00 7.50 9.00 10.00 11.00 13.50 16.00 19.00 21.00 0.12 1.19 0.12 1.50 .12.19 1.94 0.25 2.31 0.31 2.56 0.31 3.06 0.38 3.56 0.38 4.25 0.44 5.31 0.50 6.44 0.50 7.56 0.50 9.69 0.50 12.00 0.50 14.38 0.50 15.75 0.90 1.11 1.38 1.72 1.97 2.46 2.97 3.60 4.60 5.69 6.75 8.75 10.92 12.92 14.18 0.44 0.50 0.56 0.62 0.69 0.75 0.88 0.94 0.94 0.94 1.00 1.12 1.19 1.25 1.38 0.62 2.38 0.62 2.75 69.00 3.12 0.81 3.50 0.88 3.88 1.00 4.75 1.12 5.50 1.19 6.00 1.31 7.50 1.44 8.50 1.56 9.50 1.75 11.75 1.94 14.25 2.19 17.00 3.12 18.75 0.62 0.62 0.62 0.62 0.62 0.75 0.75 0.75 0.75 0.88 0.88 0.88 1.00 1.00 1.12 4 4 4 4 4 4 4 4 8 8 8 8 12 12 12 class 300 NPS O R X B C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 3.75 4.62 4.88 5.25 6.12 6.50 7.50 8.25 10.00 11.00 12.50 15.00 17.50 20.50 23.00 0.12 0.12 0.12 0.19 0.25 0.31 0.31 0.38 0.44 0.44 0.50 0.50 0.50 0.50 0.50 1.50 0.90 1.88 1.11 2.12 1.38 2.50 1.72 2.75 1.97 3.31 2.46 3.94 2.97 4.62 3.60 5.75 4.60 7.00 5.69 8.12 6.75 10.25 8.75 12.62 10.92 14.75 12.92 16.75 14.18 0.56 0.62 0.69 0.75 0.81 0.88 1.00 1.12 1.25 1.38 1.44 1.62 1.88 2.00 2.12 0.88 1.00 1.06 1.06 1.19 1.31 1.50 1.69 1.88 2.00 2.06 2.44 3.75 4.00 4.38 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 7.88 9.25 10.62 13.00 15.25 17.75 20.25 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 0.88 0.88 0.88 1.00 1.12 1.25 1.25 4 4 4 4 4 8 8 8 8 8 12 12 16 16 20 End Fittings and Flange Adjustments page 12 / 15 lapped joint flange (asme B16.5) class 400 NPS O R X B C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 3.75 4.62 4.88 5.25 6.12 6.50 7.50 8.25 10.00 11.00 12.50 15.00 17.50 20.50 23.00 0.12 0.12 0.12 0.19 0.25 0.31 0.31 0.38 0.44 0.44 0.50 0.50 0.50 0.50 0.50 1.50 1.88 2.12 2.50 2.75 3.31 3.94 4.62 5.75 7.00 8.12 10.25 12.62 14.75 16.75 0.90 1.11 1.38 1.72 1.97 2.46 2.97 3.60 4.60 5.69 6.75 8.75 10.92 12.92 14.18 0.56 0.62 0.69 0.81 0.88 1.00 1.12 1.25 1.38 1.50 1.62 1.88 2.12 2.25 2.38 0.88 1.00 1.06 1.12 1.25 1.44 1.62 1.81 2.00 2.12 2.25 2.69 4.00 4.25 4.62 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 7.88 9.25 10.62 13.00 15.25 17.75 20.25 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 1.00 1.00 1.00 11.12 1.25 1.38 1.38 4 4 4 4 4 8 8 8 8 8 12 12 16 16 20 class 600 NPS O R X B C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 3.75 0.12 4.62 0.12 4.88 0.12 5.25 0.19 6.12 0.25 6.50 0.31 7.50 0.31 8.25 0.38 10.75 0.44 13.00 0.44 14.00 0.50 16.50 0.50 20.00 0.50 22.00 0.50 23.75 0.50 1.50 1.88 2.12 2.50 2.75 3.31 3.94 4.62 6.00 7.44 8.75 10.75 13.50 15.75 17.00 0.90 0.56 1.11 0.62 1.38 0.69 1.72 0.81 1.97 0.88 2.46 1.00 2.97 1.12 3.60 1.25 4.60 1.50 5.69 1.75 6.75 1.88 8.75 2.19 10.92 2.50 12.92 2.62 14.18 2.75 0.88 1.00 1.06 1.12 1.25 1.44 1.62 1.81 2.12 2.38 2.62 3.00 4.38 4.62 5.00 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 8.50 10.50 11.50 13.75 17.00 19.25 20.75 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 1.00 1.12 1.12 1.25 1.38 1.38 1.50 4 4 4 4 4 8 8 8 8 8 12 12 16 20 20 End Fittings and Flange Adjustments page 13 / 15 weld neck flange (asme B16.5) class 150 NPS O R X B A C1 Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 2.38 2.75 3.12 3.50 3.88 4.75 5.50 6.00 7.50 8.50 9.50 11.75 14.25 17.00 18.75 4 4 4 4 4 4 4 4 8 8 8 8 12 12 12 3.50 3.88 4.25 4.62 5.00 6.00 7.00 7.50 9.00 10.00 11.00 13.50 16.00 19.00 21.00 1.38 1.19 1.69 1.50 2.00 1.94 2.50 2.31 2.88 2.56 3.62 3.06 4.12 3.56 5.00 4.25 6.19 5.31 7.31 6.44 8.50 7.56 10.62 9.69 12.75 12.00 15.00 14.38 16.25 15.75 0.62 0.84 0.82 1.05 1.05 1.32 1.38 1.66 1.61 1.90 2.07 2.38 2.47 2.88 3.07 3.50 4.03 4.50 5.05 5.56 6.07 6.63 7.98 8.63 10.02 10.75 12.00 12.75 13.25* 14.00 0.44 0.50 0.56 0.62 0.69 0.75 0.88 0.94 0.94 0.94 1.00 1.12 1.19 1.25 1.38 1.88 2.06 2.19 2.25 2.44 2.50 2.75 2.75 3.00 3.50 3.50 4.00 4.00 4.50 5.00 0.62 0.62 0.62 0.62 0.62 0.75 0.75 0.75 0.75 0.88 0.88 0.88 1.00 1.00 1.12 class 300 NPS O R X B A C1 Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 7.88 9.25 10.62 13.00 15.25 17.75 20.25 4 4 4 4 4 8 8 8 8 8 12 12 16 16 20 3.75 4.62 4.88 5.25 6.12 6.50 7.50 8.25 10.00 11.00 12.50 15.00 17.50 20.50 23.00 1.38 1.69 2.00 2.50 2.88 3.62 4.12 5.00 6.19 7.31 8.50 10.62 12.75 15.00 16.25 1.50 1.88 2.12 2.50 2.75 3.31 3.94 4.62 5.75 7.00 8.12 10.25 12.62 14.75 16.75 0.62 0.84 0.82 1.05 1.05 1.32 1.38 1.66 1.61 1.90 2.07 2.38 2.47 2.88 3.07 3.50 4.03 4.50 5.05 5.56 6.07 6.63 7.98 8.63 10.02 10.75 12.00 12.75 13.25* 14.00 0.56 0.62 0.69 0.75 0.81 0.88 1.00 1.12 1.25 1.38 1.44 1.62 1.88 2.00 2.12 2.06 2.25 2.44 2.56 2.69 2.75 3.00 3.12 3.38 3.88 3.88 4.38 4.62 5.12 5.62 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 0.88 0.88 0.88 1.00 1.12 1.25 1.25 End Fittings and Flange Adjustments page 14 / 15 weld neck flange (asme B16.5) class 400 NPS O R X B A C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 7.88 9.25 10.62 13.00 15.25 17.75 20.25 4 4 4 4 4 8 8 8 8 8 12 12 16 16 20 3.75 1.38 1.50 4.62 1.69 1.88 4.88 2.00 2.12 5.25 2.50 2.50 6.12 2.88 2.75 6.50 3.62 3.31 7.50 4.12 3.94 8.25 5.00 4.62 10.00 6.19 5.75 11.00 7.31 7.00 12.50 8.50 8.12 15.00 10.62 10.25 17.50 12.75 12.62 20.50 15.00 14.75 23.00 16.25 16.75 0.84 1.05 1.32 1.66 1.90 2.38 2.88 3.50 4.50 5.56 6.63 8.63 10.75 12.75 14.00 0.56 0.62 0.69 0.81 0.88 1.00 1.12 1.25 1.38 1.50 1.62 1.88 2.12 2.25 2.38 2.06 2.25 2.44 2.62 2.75 2.88 3.12 3.25 3.50 4.00 4.06 4.62 4.88 5.38 5.88 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 1.00 1.00 1.00 1.12 1.25 1.38 1.38 class 600 NPS O R X B A C Y B.C.D. D # of Bolt Holes 1/2 3/4 1 1-1/4 1-1/2 2 2-1/2 3 4 5 6 8 10 12 14 2.62 3.25 3.50 3.88 4.50 5.00 5.88 6.62 8.50 10.50 11.50 13.75 17.00 19.25 20.75 4 4 4 4 4 8 8 8 8 8 12 12 16 20 20 3.75 1.38 4.62 1.69 4.88 2.00 5.25 2.50 6.12 2.88 6.50 3.62 7.50 4.12 8.25 5.00 10.75 6.19 13.00 7.31 14.00 8.50 16.50 10.62 20.00 12.75 22.00 15.00 23.75 16.25 1.50 1.88 2.12 2.50 2.75 3.31 3.94 4.62 6.00 7.44 8.75 10.75 13.50 15.75 17.00 0.84 0.56 1.05 0.62 1.32 0.69 1.66 0.81 1.90 0.88 2.38 1.00 2.88 1.12 3.50 1.25 4.50 1.50 5.56 1.75 6.63 1.88 8.63 2.19 10.75 2.50 12.75 2.62 14.00 2.75 2.06 2.25 2.44 2.62 2.75 2.88 3.12 3.25 4.00 4.50 4.62 5.25 6.00 6.12 6.50 0.62 0.75 0.75 0.75 0.88 0.75 0.88 0.88 1.00 1.12 1.12 1.25 1.38 1.37 1.50 End Fittings and Flange Adjustments page 15 / 15 lap joint stub ends (asme B16.9) NPS Barrel O.D. Max. Min. Long Pattern Short Pattern Radius of Diameter of Lap Length (F)** *** Length (F)** *** Fillet (R)**** (G)***** 1/2 0.896 0.809 3.002.000.121.38 3/4 1.106 1.019 3.002.000.121.69 11.376 1.284 4.002.000.122.00 1-1/4 1.716 1.629 4.002.000.192.50 1-1/2 1.965 1.869 4.002.000.252.88 2 2.456 2.344 6.002.500.313.62 2-1/2 2.966 2.844 6.002.500.314.12 3 3.596 3.469 6.002.500.385.00 4 4.593 4.469 6.003.000.446.19 55.683 5.532 8.003.000.447.31 6 6.743 6.594 8.003.500.508.50 8 8.743 8.594 8.004.000.5010.62 10 10.913 10.719 10.005.000.5012.75 12 12.913 12.719 10.006.000.5015.00 14 14.170 13.969 12.006.000.5016.25 16 16.180 15.969 12.006.000.5018.50 18 18.190 17.969 12.006.000.5021.00 20 20.240 19.969 12.006.000.5023.00 22 22.240 21.969 12.006.000.5025.25 24 24.240 23.969 12.006.000.5027.25 Notes: *All Dimensions are in inches. ** When short pattern stub ends are used with larger flanges in Classes 300 and 600, and with most sizes in Classes 900 and higher, and when long pattern stub ends are used with larger flanges in classes 1500 and 2500, it may be necessary to increase the length of the stub ends in order to avoid covering the weld with the flange. Such increases in length shall be a matter of agreement between Manufacturer and Purchaser. *** When special facings such as a tongue and groove, male and female, etc., are employed, additional lap thickness must be provided and such additional thickness shall be in addition to (not included in) the basic length F. **** These Dimensions conform to the radius established for lap joint flanges in ASME B16.5. ***** This dimension conforms to standard machined facings shown in ASME B16.5. The back face of the lap shall be machined to conform to the surface on which it seats. Where ring joint facings are to be applied, use dimension K as given in ASME B16.5. ****** The lap thickness T shall not be less than nominal pipe wall thickness. ******* Gasket face finish shall be in accordance with ASME B16.5 for raised face flanges . Hose Accessory Configurations page 01 / 04 liner A liner of interlocked hose can be installed inside of a standard corrugated assembly. This liner protects the corrugated hose from corrosive materials and reduces turbulence by keeping the hose separated from the media. liner guard (bend restrictor) This application has either interlocked or squarelocked hose on the outside of the corrugated assembly to protect against external abrasion, corrosive medias, or physical impacts. This design will increase the bend radius so that there is less flex in the hose. Hose Accessory Configurations page 02 / 04 jacketed cover assemblies This application has a second layer of hose around the first, which is connected at its ends by specialty fittings. This design is useful for high or cryogenic temperatures where the media does not contact the outer layer. The area between the two hoses can circulate media, like steam, to compensate for extreme temperatures. tracer assemblies Tracer applications are similar to Jacked assemblies, but the media is run through a U-shaped hose so that the longer travel allows for more temperature correction. Hose Accessory Configurations nitrogen loading hose steel cable fabric page 03 / 04 Hose Accessory Configurations page 04 / 04 co2 loading hose steel cable steel cable fabric Classification of Motions page 01 / 02 random motion offset motion Such Motion is non-predictable and occurs from the manual handling of a hose assembly. Care must be taken to prevent over-bending of the hose and to avoid external abrasion of the wire braid. An armor covering of interlocked hose provides protection against these abuses. Offset motion occurs when one end of the hose assembly is deflected in a plane perpendicular to the longitudinal axis with the ends remaining parallel. axial motion Where: This Type of motion occurs when there is extension or compression of the hose along its longitudinal axis. This class of motion is restricted to unbraided corrugated hose only and is limited to small movements and short lengths of hose. USE THIS APPROPRIATE FORMULA 1/2 Formula: L = (20RT) 2 1/2 Lp = ( L2 – T ) L = Live Hose Length (inches) Lp = Projected Live Hose Length (inches) R = Minimum Centerline Bend Radius for constant flexing (inches) T = Offset Motion to one side of Centerline (inches) angular motion This type of motion occurs when one end of a hose assembly is deflected in a simple bend with the ends not remaining parallel. Formula: L = [(πRØ)/180] + (2S) Where: L = Live Hose Length (inches) R = Minimum Centerline Bend Radius for constant flexing (inches) Ø = Angular Deflection (degrees) S = Outside Diameter of hose π = 3.14159 Note 1 : When the offset motion occurs to both sides of the hose centerline, use total travel in the formula; i.e. 2 times “T”. Note 2 : The offset distance “T” for constant flexing should never exceed 25 percent of the centerline bend radius “R”. Note 3 : If the difference between “L” and “Lp” is significant, exercise care at installation to avoid stress on hose and braid at the maximum offset distance. traveling loops In a piping system where axial movement must be accommodated or where the magnitude of the motion is in excess of the limits of an offset movement, the traveling loop configuration offers an Classification of Motions ideal solution. In traveling loops, the centerline of a hose assembly is bent in a circular arc. Traveling loops accommodate movement in one of two ways. A constant radius traveling loop accommodates motion by varying the length of the arms of the assembly while the radius remains constant. A variable radius traveling loop accommodates motion by varying the bend radius of the hose assembly. Both types of traveling loops can be installed to absorb either horizontal or vertical movement. The constant radius traveling loop provides for greater movement while the variable radius traveling loop requires less installation space. Formulas for Constant Radius Traveling Loop: L = (4R) + (T/2) H = (1.43R) + (T/2) page 02 / 02 Formulas for Variable Radius Traveling Loop: L = (4R) + (1.57T) H = (1.43R) + (0.79T) Where: L = Live Hose Length (inches) R = Minimum Centerline Bend Radius for constant flexing (inches) T = Total Travel (inches) H = Hang Length of the loop (inches) variable radius traveling loop Horizontal Travel constant radius traveling loop Vertical Travel Vertical Travel Horizontal Travel Assembly Installation page 01 / 06 Our corrugated hose is engineered to provide maximum service life when properly installed. Improper installation, incorrect flexing or careless handling in an application will reduce the effective service life of the hose and cause premature failure of an assembly. The following installation and handling precautions should be observed to achieve optimum performance from your corrugated hose assemblies. avoid torque traveling loop installation Do not twist the hose assembly during installation when aligning the boltholes in a flange or in making up pipe threads. The utilization of lap joint flanges or pipe unions will minimize this condition. It is recommended that two wrenches be used in making the union connection; one to prevent the hose from twisting and the other to tighten the coupling. preventing out-of-plane flexing in an installation Always install the hose so that the flexing takes place in only one plane. This plane must be the plane in which the bending occurs. lateral offset installation avoid over-bending The repetitive bending of a hose to a radius smaller than the radius listed in the specification tables for corrugated hose will result in premature hose failure. Always provide sufficient length to prevent over bending and to eliminate strain on the hose. Assembly Installation page 02 / 06 traveling loop installation lateral offset installation use common sense in determining the installation configuration. Utilize sound geometric configurations that avoid sharp bends, especially near the end fittings of the assembly. When installing the assembly in a horizontal loop, provide support for the arms to prevent the hose from sagging. Assembly Installation A piping system which utilizes metal hose to absorb movement must be properly anchored and/or guided. page 03 / 06 pressure drop data and flow velocity information pressure drop data graph Always support the piping to prevent excessive weight from compressing the hose and relaxing the braid tension. avoid careless handling of the hose assembly Always lift or carry metal hose to prevent abrasion damage particularly to braided corrugated hose. Store metal hose assemblies away from areas where it can be subjected to spillage, corrosive fumes or spray, weld splatter, etc. Pressure drop in a piping system is a result of resistance to flow, which is influenced by such factors as media velocity, pipe size, and the length of the piping system. Because of its convoluted profile, corrugated metal hose has a greater resistance to flow than smooth wall pipe. The graph shows the approximate pressure loss at various rates of water flow through straight sections of corrugated metal hose. For example, to determine the pressure loss through a 5 foot length of 2” id hose conveying 100 gallons of water per minute, locate the flow rate on the horizontal scale and project vertically to the intersection with the 2” id hose line. Then go horizontally to read the pressure loss on the vertical scale. Multiply the 5 foot hose length times the 0.9 psi loss per foot to determine the total pressure loss of 4.5 psi. Assembly Installation page 04 / 06 flow velocity consideration temperature The flow velocity in corrugated metal hose should never exceed 150 ft./sec. for gas or 75 ft./sec. for liquids. When a hose is installed in a bent condition, the flow values should be reduced proportionally to the degree of the bend. Where the flow velocity exceeds these rates, an interlocked metal hose liner is recommended. The physical properties of any material varies with temperature. Limits for operating temperature are affected by the working pressure, the type of media being conveyed and the nature of the application. By careful selection of material, it is possible to provide flexible metal hose for a wide range of operating temperatures. The choice of hose type, metal alloy, end fitting, and method of fitting attachment determine the temperature limit. selection criteria The selection of flexible metal hose for a particular application is influenced by six primary considerations: 1Pressure 2Temperature 3Media 4Motion 5Size 6 End Fittings To make the best choice for a specific application, consider all the relevant operating factors against the properties of the various types of flexible metal hose. pressure The nominal pressure rating of flexible metal hose varies according to type, material, and size. Specific pressure ratings for each type of flexible metal hose are found in each section of the catalogue. Under actual working conditions, pressure is affected by many other factors such as temperature, pulsation conditions, and bending stresses. The “Guide To Specification Table Headings” in the Corrugated Metal Hose Section explains how such factors specifically affect the properties of corrugated metal hose. Also, review the “Temperature Adjustment Factor Table” for adjusting pressure ratings at operating temperatures higher than 70˚F. motion Flexible metal hose is generally used in four types of applications: 1 To correct problems of misalignment 2 To provide flexibility in manual handing operations 3 To compensate for regular or constant movement 4 To absorb vibration In all types, careful hose selection, design of the assembly, and installation are important for optimal service life. The flexibility of a hose is determined by its mechanical design and the inherent flexibility of its material. media The type of media being conveyed is an important consideration in the selection process. Metal hose is subjected to corrosion by both the material flowing through it and the outside environment. For almost all applications, a metal hose can be selected that is resistant to the intended media. Since metal hose is a thin-walled product, it will not have the same total life as heavier walled tube or pipe of the same material. The “Corrosion Evaluation Data” table provides a guide to material selection. Assembly Installation page 05 / 06 end fittings temperature adjustment factors The use of flexible metal hose is complimented by the extensive range of end fittings that are available. Such end fittings may be male or female pipe threads, unions, flanges, flared tube fittings or other specially designed connectors. End fittings are attached by welding, silver brazing, soldering, and occasionally by mechanical means, depending on the type of hose and the alloy. For further detail on the appropriate type of end fitting please consult your fabricating distributor. In general, the strength and therefore the pressure rating of metal hose decreases as the temperature increases. Thus, as the operating temperature of a metal hose assembly increases, the maximum allowable working pressure of the assembly decreases. The pressure rating shown in the specifications chart for corrugated and interlocked hose are valid at 70˚F. Elevated service temperatures will decrease these pressure ratings by the factors shown in the following chart. What also must be considered is the maximum working temperature of the end fittings, of the hose and their method of attachment. size The size of flexible metal hose is specified by the nominal diameter. The existing piping will normally dictate the size of the metal hose for a particular application. However, flow rate, velocity, and pressure drop considerations may also influence the selection of the hose size. For Example : To calculate the maximum working pressure for ¾” ID single braided stainless steel corrugated hose at 800 °f. From the corrugated metal hose specification table, the maximum working pressure at 70° f is 775 psig. Multiply 775 psig by 0.66. The maximum working pressure at 800° f is 511 psig. maximum service temperatures The component of a metal hose assembly with the lowest temperature rating as shown in this chart determines the maximum service temperature of that assembly. Correction Factors Chart Apply to pressure rating for elevated temperatures °f 304L 316L 321 SteelMonel 70 1.001.001.001.001.00 100 1.001.001.000.960.90 200 1.001.001.000.970.90 300 1.001.001.000.930.83 400 0.930.930.930.870.79 500 0.880.860.860.81 0.73 600 0.830.800.820.74 0.72 650 0.820.79 0.80-- -700 0.880.860.79 0.660.71 750 0.790.75 0.78-- -800 0.770.740.770.520.70 850 0.760.720.76-- -900 0.71 0.700.760.50-950 0.59 0.680.75 -- -10000.46 0.67 0.69 -- -10500.37 0.64 0.48 -- -11000.30 0.61 0.34 -- -11500.230.52 0.25-- -12000.19 0.38 0.18 -- -12500.15 0.280.13 -- -13000.12 0.20 0.08 -- -- Assembly Installation page 06 / 06 installation tips do don’t > Follow any printed instructions included with the flexible connector. > Wrench and flexible connector on the hose or collar. > Follow industry – recommended practices and use care in handling and installing flexible connectors. > Twist hose assemblies during installation or when aligning the boltholes in a flange or when making up pipe threads. > Install flexible connectors so that the bend is as close to the center of the connector as possible. > “Pre-flex” a flexible connector to limber it up. Over- bending could cause damage and result in leakage. > Observe the minimum bend radius as specified by the connector manufacture. > Over-bend a flexible connector. A 45 - 90 bend should be sufficient to install any flexible connector. > “Premade” threaded connections by hand, unmake and then make permanent. > Install a flexible connector with the bend next to the end fittings. This could cause damage and result in leakage. > Lay the flexible connector on rocks or objects which could puncture the hose and cause leakage. > Restrict flexibility by allowing connector to come into contact with other components or equipment during installation. > Attempt to stretch or compress a flexible connector to fit an installation. > Use a flexible connector of proper length to suit the installation. > Only wrench on the fitting hex flats as provided. > Design the installation to allow for ground move ment after installation, such as settling or frost heave. > Install the proper length connector to allow a 2” straight run of hose at each fitting. > Use pipe wrenches on both mating hexes to avoid twisting the hose. > Keep hose free from all objects and debris. > Handle and store connectors carefully prior to installation. > Check for leaks before covering the installation. > Install in such a manner that the connector can be removed. > Make sure pressure rating of connector is not exceeded. Interlocked Metal Hose page 01 / 10 hose fundamentals Our interlocked metal hoses are made for a variety of specialized industrial applications and are available in a wide range of metals, styles and sizes. Interlocked hose is manufactured by helically winding preformed metal strips over a sizing mandrel and folding together the adjacent edges forming the interlocked convolutions. A packing material may be inserted into a preformed groove within the interlock to make the hose pressure tight or to minimize leakage. This Packing forms a continuous gasket seal throughout the entire length of the hose. Flexibility is achieved through the sliding action which is provided by the slip-space within each interlocked convolution. The limits of axial elongation or compression are established when the convolutions are all fully opened or are all fully closed. Similarly, the minimum bend radius is achieved when the convolutions on the outside of the bend are fully opened, and those on the inside of the bend are fully closed. Considerable force is required to exceed these limitations. However, if the hose is forced beyond these limits, it will be permanently deformed. Certain styles of non-pressure hose are designed to minimize metal-to-metal contact within the interlocked convolutions, and are therefore very flexible. Conversely, pressure hose is considerably less flexible since the forces necessary to compress the packing material produce a greater resistance to the sliding action. guide to interlocked hose specifications tables Nominal Diameter This column lists the nominal diameters of the hose expressed in inches. Strip Metal Thickness This column indicates the thickness of the strip metal from which the hose is manufactured. Weight This column specifies the approximate weight per foot of hose and is given in pounds per foot. Burst and Working Pressures This data is applicable only to M-100 pressure hose. Review the M-100 pressure hose specification section for definitions of these terms. Bend Radius Identified as Minimum Centerline Bend Radius (for M-100 pressure hose), this column specifies the bend limitations of the particular hose. The following drawings and formulas define these terms. m-100 pressure hose (cross section) Interlocked Metal Hose page 02 / 10 m-100 pressure hose description Our M-100 pressure hose is a high quality, heavy duty, fully interlocked metal hose designed to withstand the abuse of many industrial applications. The inclusion of a quality packing into a specially formed groove during manufacturing serves as a continuous gasket to make the hose pressure tight. Such media as air and non-searching fluids can be conveyed by M-100 hose at moderate pressure and temperatures. For technical data refer to the appropriate specification tables. end fittings The high temperatures encountered in welding pipe and flanges to M-100 hose destroys the packing within the convolutions adjacent to the weld area. “Titepak” and “Packed & Welded” fittings were developed to seal this damaged section by providing a box and gland arrangement for the application of corrective packing after the fitting has been welded onto the hose. These fittings are available as rigid or floating flanges and as beveled, and NPT threaded pipe ends. specifications M-100 pressure hose is produced in type 304 stainless steel. I.D. sizes range from ¾” through 28”. In addition to the column headings defined in the “Guide to Interlocked Hose Specification Tables,” the following terms are included in the specifications table for M-100 pressure hose. m-100 pressure hose (cross section) Nominal Burst Pressure is the PSIG pressure at which the hose can be expected to rupture. This rating is predicated upon the hose being installed straight and motionless, and subjected to internal hydrostatic pressure at 70 °f. Maximum Working Pressure is the PSIG pressure at 70 °f to which the hose should be subjected while operating under moderate bending, motion, and flow conditions. This rating represents the application of 3 to 1 safety factors against the nominal burst pressure. If more sever operating conditions are anticipated, the use of a 4 to 1 or a 5 to 1 safety factor is recommended. Elevated operating temperatures require the application of a temperature adjustment factor to the maximum working pressure at 70 °f. Refer to the “Temperature Adjustment Factor Table” in the “Design Considerations” section of this catalogue. applications M-100 pressure hose is an ideally suited hose for metal expansion joints, boiler relief valve sealing, pulverized coal cyclone feeders, boiler draft systems, and BOF lance hose assemblies. Additionally, M-100 pressure can be used in applications involving diesel exhaust, tank car unloading, barge unloading, fuel oil transfer, oven exhaust, suction lines, and air intake lines. Interlocked Metal Hose page 03 / 10 m-100 pressure hose size nominal od maximum working pressure (psig) nominal burst pressure (psig) minimum centerline bend radius 1/2 3/4 1 1 1/2 2 2 1/2 3 4 5 6 8 10 12 14 16 18 20 22 24 26 28 500 495 365 240 190 140 120 175 200 165 150 120 115 100 97 77 70 64 56 53 50 1500 1455 1095 720 540 420 360 525 600 495 450 360 345 300 260 230 210 192 169 159 150 6 7 10 14 19 22 27 36 46 48 64 90 114 132 150 169 196 204 224 240 260 0.65 0.93 1.18 1.69 2.19 2.69 3.19 4.35 5.35 6.35 8.60 10.60 12.70 14.70 16.70 18.70 20.70 22.70 24.70 26.70 28.70 strip thickness 0.015 0.018 0.018 0.018 0.018 0.018 0.018 0.035 0.050 0.050 0.060 0.060 0.070 0.070 0.070 0.070 0.070 0.070 0.070 0.070 0.070 0.4 m-100 pressure hose We manufacture M-100 hose assemblies with the following fittings: titepak rigid flange trf titepak floating flange tff titepak weld end twm male npt end hm weight per foot female npt end hf 0.5 0.6 0.9 1.2 1.5 1.7 4.6 5.6 6.7 16.3 20.2 24.1 31.3 35.7 40.0 44.4 48.7 53.1 57.5 61.8 Interlocked Metal Hose page 04 / 10 conveyor hose description Our two distinct types of interlocked conveyer hoses designed especially for the transfer of dry bulk materials. Standard Conveyor Hose is a serviceable, unlined, medium weight hose featuring a fully packed interlocked construction. Smooth Bore Conveyor Hose features rugged interlocked construction plus an integral metal strip lining. This lining provides Smooth Bore conveyor hose with a smooth bore that minimizes impaction and reduces turbulence for free flowing transmission of materials. Smooth Bore conveyor hose can also be produced with the inclusion of packings in the interlocks to reduce air loss and for low pressure requirements. end fittings A wide range of end fittings is available for our conveyor hoses. These end fittings can be plain, threaded or grooved nipples, pipe ends, plate flanges, either rigid or floating, and quick discount couplings. Attachment can be made by welding, brazing, or by high strength adhesives. specifications Standard conveyor hose is produced in stainless steel, galvanized steel, and aluminum in a range of sizes from 3” to 20” inside diameters. Smooth bore standard conveyor hose (cross section) smooth bore conveyor hose (cross section) conveyor hose is produced in a size range from 1 ½” to 20” inside diameter. Because Smooth Bore conveyor hose is manufactured using two separate pieces of metal strip, the complete hose can be composed of two different types of material. TLGG is made of all galvanized steel for the best economy. TLGS is a galvanized steel hose with a stainless steel lining for maximum resistance to abrasion. TLAS is a light weight aluminum hose with an abrasion resisting stainless steel lining. TLSS is an all stainless steel construction for maximum corrosion and abrasion resistance. Smooth Bore conveyor hose is a uni-directional flow hose; make sure that the inlet and outlet end connections are specified. The tables on the following page give complete technical information about our conveyor hoses. applications Our conveyor hose are excellent for applications involving the pneumatic transmission of flake or palletized plastics, grains, coal dust, slag, and other dry granular or abrasive materials. It can be used for the loading or unloading of shipping, barges, containers, silos, elevators, highway, and rail cars. Standard conveyor hose can also be used for air intake for diesel superchargers, exhausting gases from ovens and furnaces, and boiler draft system expansion joints. Interlocked Metal Hose page 05 / 10 standard conveyor hose nominal id nominal od minimum coiling diameter wt/ft cs/ss 3 3.25 30 2.3 4 4.25 40 3.1 5 5.25 48 3.8 6 6.25 58 4.8 8 8.25 67 6.0 10 10.25 96 7.52 12 12.25 114 9.0 14 14.25 133 11.0 16 16.25 152 12.0 18 18.25 170 14.5 20 20.25 190 17.0 m-100 pressure hose nominal id light weight tlss 0.015”armour/0.015”liner standard weight tlss o.o18”armour/0.015”liner heavy weight tlss o.24”armour/0.015”liner minimum coiling diameter wt/ft minimum coiling diameter wt/ft minimum coiling diameter wt/ft 1 1/2 18 1.4 20 1.6 2 19 1.9 21 2.2 2 1/2 22 2.3 24 2.6 3 24 2.8 26 3.1 29 3.8 4 32 3.6 35 4.1 39 5.0 5 47 4.5 50 5.1 57 6.1 6 52 5.4 56 6.1 63 7.3 8 91 8.1 98 9.4 10 111 11.0 12 132 13.0 14 154 15.5 16 176 17.5 18 198 20.5 20 220 23.0 Standard Smooth Bore Conveyor Hose is supplied unpacked. If there is a pressure requirement consult the table below. This data is also applicable to Standard Conveyor Hose. packing material max. temperature max. pressure vacuum Cotton 300 F 15 PSIG 15 in. Mercury, Max. Elastomer 180 F 20 PSIG 20 in. Mercury, Max. Silicone 500 F 20 PSIG 20 in. Mercury, Max. Interlocked Metal Hose page 06 / 10 interlocked exhaust hose description specifications Our exhaust hoses are produced in a wide range of ID sizes, metals, and weights. This range is available to provide the right hose for the application at the most economical cost. Interlocked exhaust hose utilizes a fully interlocked construction for strength and durability while allowing the hose to have excellent flexing characteristics. The normal configuration of exhaust hose is unpacked and fully extended. In order to minimize leakage, however, exhaust hose can be supplied packed upon request. Our exhaust hoses are produced in galvanized steel and stainless steel as standard but are also available in aluminum and bronze as specials. The strip thickness and thus the hose weight can be selected to match the application depending upon the degree of rough handling and the abrasive conditions of the service. We have three different weights of exhaust hose as indicated in the following tables. series weight designation strip thickness IE30 Light 0.010” to 0.012” IE50 Standard 0.018” to 0.020” IE65 Heavy 0.024” to 0.026” end fittings Standard pipe couplings, nipples, and fixed or floating flanges can be attached to exhaust hose. Any special type of fitting can be adapted to fit this hose. Attachment can be by welding, brazing, or with adhesives. Additionally, hose clamps and automotive muffler clamps can be used. The size range of exhaust hose is from ½” to 8” inside diameter. For sizes larger than 8” ID, use the standard conveyor hose (up to 20” ID). applications Some typical uses of exhaust hose are: engine exhaust and vacuum and collection service, conveying, ventilating lines, and protective casing for cable and tubing. interlocked exhaust hose (cross section) Interlocked Metal Hose page 07 / 10 ie30 interlocked exhaust hose ie65 interlocked exhaust hose Strip Thickness 0.010/0.012” Strip Thickness 0.024/0.026” nominal diameters inside outside minimum coiling diameter wt/ft nominal diameters inside outside minimum coiling diameter wt/ft 1/2 0.61 6 0.23 2 2.23 24 1.55 3/4 0.86 7 0.32 2 1/4 2.48 27 1.74 1 1.11 9 0.41 2 1/2 2.73 30 1.92 1 1/4 1.36 11 0.44 2 3/4 2.91 33 2.11 1 1/2 1.61 13 0.54 3 3.23 35 2.29 1 3/4 1.86 15 0.63 3 1/2 3.73 41 2.66 2 2.11 17 0.72 4 4.23 47 3.02 2 1/4 2.36 19 0.80 5 5.23 58 3.76 2 1/2 2.61 21 0.89 6 6.23 69 4.49 2 3/4 2.86 23 0.96 7 7.23 80 5.23 3 3.11 26 1.06 8 8.23 91 5.96 3 1/2 3.61 30 1.24 4 4.11 34 1.41 5 5.11 42 1.76 6 6.11 50 2.11 7 7.11 58 2.46 8 8.11 66 2.8 Strip Thickness 0.018/0.020” nominal diameters inside outside minimum coiling diameter wt/ft 1 1/2 1.66 17 0.86 1 3/4 1.91 19 1.00 2 2.16 22 1.13 2 1/4 2.41 25 1.27 2 1/2 2.66 27 1.40 2 3/4 2.91 29 1.54 3 3.16 32 1.67 3 1/2 3.66 38 1.95 4 4.16 43 2.22 5 5.16 53 2.76 6 6.16 63 3.30 7 7.16 74 3.85 8 8.16 84 4.39 notes ie50 interlocked exhaust hose (1) Tabulated weights apply to stainless steel and carbon steel hose. Multiply 0.35 to obtain weight per foot of aluminum hose. (2) Intermediate sizes, alloys, and flexibility characteristics are all subjected to quotation from the factory. Interlocked Metal Hose page 08 / 10 square locked hose description specifications Square locked hose is an extremely flexible type of metal hose. The square locked construction of the hose enables it to conform to a very small bend radius. Square locked hose can be produced with or without packing. While the hose is not pressure tight, packed square locked hose will contain liquids at gravity flow and can be considered moisture resistant. Square locked hose is manufactured in galvanized steel and stainless steel in a size range from 5/32” to 3/4” inside diameter end fittings This type of interlocked hose is normally furnished without end fittings. applications Applications for square locked hose include wiring conduit for electrical and electronic equipment, electronic shielding tubing, protective casing, and flexible spouts. nominal diameters inside square locked hose (cross section) unpacked square locked hose (cross section) packed min. coiling diameter strip thickness wt/ft outside unpacked packed 7/32 0.310 2.125 3.250 0.010 0.045 5/16 0.420 2.375 4.000 0.010 0.060 3/8 0.500 2.500 4.250 0.012 0.080 1/2 0.630 2.750 4.750 0.012 0.130 5/8 0.750 3.500 5.500 0.012 0.160 3/4 0.940 7.500 9.000 0.020 0.250 Interlocked Metal Hose page 09 / 10 flexible conduit Conduit is made in two configurations, or constructions, commonly called SquareLok and InterLok, and is often abbreviated as SL and FI. Standard Conduit is made from 304 stainless steel. Other metals are available. Conduit is different from the Square Locked Hose shown on the previous page in that it is: (1) Highly flexible (2) Floppy (3) Clean for oil free use squarelok style (sl) SquareLok tubing is produced from a continuous metal strip, and is held in position by locking one leg of one profile over the leg of the adjacent profile. size inside diameter outside diameter 1/16” 0.071” 0.118” 1.80” 1.6mm 1.8mm 3.0mm 46.00mm 1/8” 0.125” 0.200” 1.50” 3mm 3.18mm 5.1mm 38.00mm 5/32” 0.156” 0.235” 1.75” 4mm 3.97mm 5.97mm 44.45mm 3/16” 0.188” 0.266” 1.75” 5mm 4.76mm 6.76mm 44.45mm 7/32” 0.218” 0.303” 1.75” 5.5mm 5.55mm 7.7mm 44.45mm 1/4” 0.250” 0.329” 2.00” 6mm 6.35mm 8.36mm 50.80mm 9/32” 0.282” 0.375” 2.00” 7mm 7.15mm 9.52mm 50.80mm 5/16” 0.313” 0.410” 2.00” 8mm 7.94mm 10.91mm 50.80mm 3/8” 0.375” 0.500” 2.00” 9.5mm 9.53mm 12.65mm 50.80mm coiling diameter weight load breaking load part number 0.010lb/ft 50lb SL-SS-001 0.015kg/m 23kg 3280ft/reel 0.020lb/ft 66lbs SL-SS-002 0.030kg/m 30kg 3000ft/reel 0.033lb/ft 175lb SL-SS-0025 0.049kg/m 80kg 2200ft/reel 0.036lb/ft 185lb SL-SS-003 0.054kg/m 84kg 1500ft/reel 0.042lb/ft 210lb SL-SS-0035 0.063kg/m 96kg 1200ft/reel 0.044lb/ft 175lb SL-SS-004 0.066kg/m 80kg 1000ft/reel 0.050lb/ft 220lb SL-SS-0045 0.075kg/m 100kg 900ft/reel 0.065lb/ft 220lb SL-SS-005 0.095kg/m 100kg 700ft/reel 0.076lb/ft 250lb SL-SS-006 0.144kg/m 114kg 500ft/reel interlok style (fi) InterLok metal strip and the edges of the strip are completely interlocked with each other. This offers increased crush protection, and higher axial strength. size inside diameter outside diameter coiling diameter weight load 3/16” 0.188” 0.266” 5mm 2.000” 0.040lb/ft 210lb FI-SS-003 4.763mm 6.756mm 50.8mm 0.060kg/m 95kg 1500ft/reel 1/4” 0.250” 0.329” 2.000” 0.050lb/ft 270lbs FI-SS-004 6mm 6.350mm 8.357mm 50.8mm 0.075kg/m 123kg 1000ft/reel breaking load part number Interlocked Metal Hose page 10 / 10 copper capillary tubing technical data Our manufactured Copper Capillary Tubing for use by manufactures of equipment for: • • • • Process & Control Instrumentation Measuring & Control Devices Temperature Measurement Recording Instruments Capillary Tubing is made with the following construction: Inner Tube Alloy C122 Seamless Copper in various ID and OD combinations Braid Braid is available in single or double layers of Alloy C102 Copper Finish Bright Annealed Temper Soft Capillary Tubing can be made using many different constructions. If this is a product that you use please send us a copy of your specification or print and a sample. We can offer prompt quotations. Corrosion Evaluation Data page 01 / 09 This information may be used as a guide for the selection of flexible metal hose and of fitting material suitable for conveying the substances listed. However, this data should not be construed as advice to use or not use without further testing or investigation since variations in service conditions can influence resistance to corrosion. The corrosion resistance of tin-lead solder, brass brazing, and silver brazing alloys used to attach end fittings to metal hose may be considered equal to bronze in the table. Joints produced by welding end fittings to steel, stainless steel, and monel hose may be considered equivalent to the corrosion resistance of the component parts. interpretation of corrosion data Class 1 Resistant Class 2 Partially Resistant Class 3 Non-Resistant Less than 0.00035 inch penetration per month Between 0.00035 to 0.0035 inch penetration per month Greater than 0.0035 inch penetration per month * Subject to decomposition (forming HCI) in presence of moisture. ** Subject to pitting at air line or when allowed to dry. *** Subject to attach in presence of H2SO4. chemicaltemp 304 s °f 321 ss 316l carbon bronze monel steel Acetic Acid 5% - 20% Agitated or Aerated 70 1 1 3 3 2 50% 70 1 1 3 3 3 50% - 80% Boiling 3 2 3 3 3 80% 70 1 1 3 3 1 100% 70 1 1 3 3 1 100% Boiling 3 2 3 3 2 100% @ 150 lbs 400 3 3 3 3 2 Acetic Anhydride70 113 3 2 Boiling 113 3 2 Acetic Acid Vapors, 30% Hot 32333 100% Hot 3 3 3 3 2 AcetoneBoiling 113 11 Acetyl Chloride Cold 22321 Boiling 2 2 3 2 3 Acetylene Concentrated 70 11131 Commercially Pure 70 1 1 1 3 1 Acid Salt Mixture: 10% H 7 SO 4 Sp, G, 1.07 + 10% CuSO 4 5 H 2 0 Boiling 1 1 333 Alcohol, Ethyl, 70% & Boiling 70 1 1 1 1 1 Alcohol, Methyl 70 11111 150 3** 2 3 11 Aluminum, Molten 1400 33333 Aluminum Acetate, Saturated 70 1 1 331 Boiling113 3 1 Aluminum Chloride 10% Quiescent 70 3 3 3 3 2 25% Quiescent 70 1 1 3 3 2 Aluminum Flouride 70 33332 Aluminum Hydroxide, Saturated 701**1 1**1 1 Corrosion Evaluation Data page 02 / 09 chemicaltemp 304 s 316l carbon bronze monel °f 321 ss steel Aluminum Sulphate, 5% 150 1** 1 331 10% 70 1** 1 3 3 1 10% Boiling 2** 1 3 3 1 Saturated 70 1** 1 3 3 1 Saturated Boiling 2** 1 3 3 1 (Alum) 2% - 10% 70 1 1 3 2 2 10% Boiling 2 1 3 3 2 Saturated Boiling 3 2 3 3 2 All Concentration 70 1 1 1 1 1 Gas Hot 3 3 3 3 -- Aluminum Potassium Sulphate Ammonia (Anhydrous) Ammonia Liquor70 113 3 3 Boiling 113 3 3 Ammonium Bicarbonate 70 1 1 332 Hot 113 3 2 Ammonium Bromide70 2 13 3 2 Ammonium Carbonate 1% & 5% 70 1 1 1 3 3 Ammonium Chloride 1% 70 1 1 2 3 1 10% Boiling 1** 1** -- 3 2 28% Boiling 2** 1** -- 3 2 50% Boiling 2** 1** -- 3 2 70 1 1 2 3 3 Ammonium Hydroxide All Concentrations Ammonium Monophospate 70 11232 Ammonium Nitrate All Concentrate Agitated 70 1 1 3 3 2 All Concentrate Aerated 70 1 1 3 3 2 All Concentrate Saturated Boiling 1 1 3 3 2 Ammonium Oxalate 5% 70 1 1 2 3 -- Ammonium Perchlorate 10% Boiling 1 1 2 3 -- Ammonium Persulphate 5% 70 1 1 -- 3 3 Ammonium Phoshate 5% 70 1 1 2 3 3 70 1 1 3 3 2 5% Aerated & Agitated 70 1 1 3 3 2 10% Saturated Boiling 2** 1** 3 3 2 Ammonium Sulphate 1% Aerated or Agitated Ammonium Sulphate Ammonium Sulphite 70 113 3 3 Boiling 113 3 3 Amyl Acetate Concentrate 70 11211 Amyl Chloride70 113 2 2 Aniline 3%70 112 3 2 Concentrated Crude 70 1 1 1 3 2 Aniline Hydrochloride 70 33--33 Antimony Trichloride 70 33333 Barium Carbonate70 12 12 -Barium Chloride 5% & Saturated 70 1 1 3 2 2 Hot 1 1 2 -- -- Barium Hydroxide Aqueous Solution Corrosion Evaluation Data page 03 / 09 chemicaltemp 304 ss 316l carbon bronze monel °f 321 ss steel Hot 1 1 2 -- -- 70 1 1 -- 1 2 Saturated Solution 70 1 1 3 3 -- Benzene (Benzol) 70 or Hot 70 1 1 2 1 2 Barium Nitrate Aqueous Solution Barium Sulphate (BarytesĐBlanc Fixe) Barium Sulfide Benzoic Acid 70 1111-Blood (Meat Juices)Cold 1** 13 -- 2 Borax 5% Hot & Cold 1 1 -- -- -- Boric Acid 5% Solution 70 - Hot 1 1 3 1 2 5% Solution Boiling 1 1** 3 1 2 Saturated Solution 70 1** 1** 3 2 2 Saturated Solution Boiling 1** 1** 3 3 2 Bromine, Bromine Water 70 33333 Buttermilk70 113 3 2 Butyl Acetate112 -- 2 Butyric Acid 5% Aqueous Soln. Sp. G. .964 70 - 150 1 1 3 2 2 Boiling 1 3 2 2 1 Calcium Carbonate 70 111--1 Calcium Chlorate Dilute Solution 70 - Hot 1 1 2 -- 2 70 2** 1** 3 2 3 (Bleaching Powder) 1% 70 3 3 3 2 3 5% 70 3 3 3 2 3 Calcium Hypochlorite, 2% 70 2** 1** 3 2 3 Calcium Hydroxide, 10% – 20% Boiling 1 1 3 1 1 Calcium Chloride Dilute or Concen. Solution Calcium Chlorohypochlorite Calcium Sulphate, Saturated 70 11312 Carbonic Acid Saturated Soln. 70 11313 Carbolic Acid C.P.70 113 2 1 Boiling 1 1 3 2 1 Carbonated Water113 2 3 Carbon Bisulfide70 112 2 2 Carbon Monoxide Gas 1400 11131 Carbon Tetrachloride C.P. 70 1 1 2 1 1 Dry C.P. Boiling 1 1 2 1 2 3** 3 3 2 2 Commercial + 1% Water Carnallite-Cold Saturated Soln. KCIMgCl<sub) 2 6H 2 O Boiling 3 1** -----Cellulose11-- -- 1 Chloracetic Acid 70 33322 Chlorbenzol Conc. Pure Dry 70 1 1 2 2 2 Chloric Acid 70 33333 Chlorine Gas (Dry)70 3 2 2 12 (Moist) 70 3 3 3 3 Chlorinater Water, Saturated3** 2** 3 3 Corrosion Evaluation Data page 04 / 09 chemicaltemp 304 ss 316l carbon bronze monel °f 321 ss steel Chloroform 70 11111 Chromic Acid 5% C.P. 70 1 1 3 3 3 10% 70 3 2 3 3 3 10% C.P. Boiling 3 2 3 3 3 50% C.P. 70 3 2 3 3 3 50% C.P. Boiling 3 3 3 3 3 Comm 50% (Cont. SO3) 70 3 3 3 3 3 Comm 50% (Cont. SO3) Boiling 3 3 3 3 3 Chromium Plating Bath 70 1 1 2 -- 3 Citric Acid, 5% Still 70 - 150 1 1 3 1 2 15% Still 70 1 1 3 2 2 15% or Concentrated Boiling 2 1 3 2 3 CoffeeBoiling 113 11 Copper Acetate (Sat. Sol.) 70 1 1 3 -- 2 Copper Carbonate (Sat. Sol.) In 50% NH4OH 1 1 -- 3 -- 70 2** 1** 3 3 3 1% Agitated 158 3 3 3 3 3 1% Aerated 70 2** 1** 3 3 3 5% Agitated 70 3** 2** 3 3 3 5% Aerated 70 3** 3** 3 3 3 Boiling 1 1 -- 3 2 1% Still, Agitated, & Aerated 70 1 1 3 3 3 5% Still, Agitated, & Aerated 70 1 1 3 3 3 50% Aqueous Solution Hot 1 1 3 3 3 5% Agitated, Still, or Aerated 70 1 1 3 3 3 Saturated Solution Boiling 1 1 3 2 3 Copper Chloride, 1% Agitated Copper Cyanide (Sat. Sol.) Copper Nitrate Copper Sulphate Creosote (Coal Tar) Hot 11212 Creosote OilHot 112 2 2 Cyanogen Gas70 11-- -- -Dichloroethane (Dry)Boiling 113 3 2 Dinitrochlorobenzene Melted & Solidified 70 1 1 3 -- -- Dyewood Liquor70 1** 13 -- 2 Epsom Salt (Magnesium Sulfate) Hot & Cold 1 1 3 1 2 Ethers70 112 12 Ethyl Acetate (Conc. Sol.) 70 11212 Ethyl Chloride70 112 2 1 Ethylene Chloride70 112 2 1 Ethylene Glycol 70 11211 Ferric Chloride 1% Solution Still 70 2** 1** 3 3 3 1% Solution Boiling 3 3 3 3 3 5% Solution, Agitated, Aerated 70 3 3 3 3 3 70 1 1 3 -- 2 70 1 1 3 3 3 Ferric Hydroxide (Hydrated Iron Oxide) Ferric Nitrate 1% - 5% Quiescent or Agitated Corrosion Evaluation Data page 05 / 09 chemicaltemp 304 ss 316l carbon bronze monel °f 321 ss steel 70 1 1 3 3 3 1% - 5% Quiescent or Agitated 70 1** 1 3 3 3 1% - 5% Aerated 70 1** 1 3 3 3 1** 1 3 3 3 70 3 1 3 2 -- 70 1 1 3 2 3 1% - 5% Aerated Ferric Sulphate 10% Boiling Ferrous Chloride Saturated Solution Ferrous Sulphate Diluted Solution Fluorine (Gas) Moist 70 33333 Formaldehyde 40% Solution1** 1** 2 11 Formic Acid, 5% Still70 2 13 2 2 5% Still 150 2 1 3 2 3 Fuel OilHot 112 12 Containing Sulphuric Acid 3 2 -- 3 2 Furfural70 112 12 Gallic Acid, 5% Saturated 70 - 150 1 1 3 -- 2 212 1 3 -- 2 1 Gasoline70 112 11 Gelatin113 11 Glue Dry ~ SolutionNAcid 70 1 70 - 140 2** 1 1 2 2 1 2 3 2 Glycerine70 112 11 Hydrochloric Acid All Concentrations 70 3 3 3 3 3 Hydrocyanic Acid70 113 3 2 Hydrofluoric Acid 70 33331 Hydrofluosilic Acid 70 33322 Hydrogen Peroxide70 1** 13 3 2 Boiling 2** 13 3 2 Hydrogen Sulphide70 1** 12 13 (Wet) 70 2** 1** 3 3 3 Hyposophite Soda (Hypo)11-- -- -Ink70 2** 13 3 1 Iodine 70 33333 Iodoform70 113 -- 2 Kerosene70 112 12 Lactic Acid, 1%70 113 2 2 1% Boiling 1 1 3 3 2 5% 70 1 1 3 2 2 5% 150 2 1 3 3 2 Boiling 2 1 3 3 2 10% 70 2 1 3 2 2 10% 150 2 1 3 2 2 Boiling 3 2 3 3 2 Concentrated 70 2 1 3 2 2 Concentrated Boiling 3 2 3 3 2 Lead (Molten)750 2 2 -- 3 3 Lead Acetate 5% Boiling 1 1 3 -- 2 Corrosion Evaluation Data page 06 / 09 chemicaltemp 304 ss 316l carbon bronze monel °f 321 ss steel Linseed Oil70 112 2 1 Plus 3% H 2 SO 4 390 2 13 3 1 Magnesium Chloride 1% Quiescent 70 1** 1 3 2 1 1% Quiescent Hot 3 2** 3 2 1 5% Quiescent 70 1** 1 3 2 1 5% Quiescent Hot 3 2** 3 2 1 Magnesium Oxychloride 70 32** 3---Magnesium Sulphate, Hot/Cold 11311 Malac Acid, Hot/Cold2 13 -- 2 MashHot 11-- -- 2 Mayonnaise70 1** 13 -- 2 Mercury1113 3 Mercuric Chloride Dilute Sol. 70 33333 Methanol (Methyl Alcohol) 11211 Milk, Fresh or Sour113 12 Mixed Acids 53% H 2 SO 4 + 45% HNO 1 Cold 1 1 333 Molasses112 11 Muriatic Acid 70 33332 Mustard70 1** 1** 3 -- 2 Naptha, Crude70 112 2 1 Naptha, Pure70 112 2 1 Napthhalene Sulfonic Acid 70 113--1 Nickel Chloride Solution 701**1**3 2 2 Nitrating Solutions, Hot/Cold 22--23 Nickel Sulphate, Hot/Cold 11311 Niter Cake Fused2 13 -- 2 Nitric Acid 5% Đ50% Đ70% Boiling 1 1 3 3 3 65% 70 1 1 3 3 3 65% Boiling 2 2 3 3 3 Concentrated 70 1 1 3 3 3 65% Boiling 3 3 3 3 3 Fuming Concentrated 70 - 110 1 1 3 3 3 Fuming Concentrated Boiling 3 3 3 3 3 Nitrous Acid 5%70 113 3 3 Oils, Crude, Hot/Cold1** 1** 2 1 Oleic Acid70 - 400 1** 12 2 2 Oxalic Acid 5% - 10% 70 1 1 3 2 2 5% - 10% Boiling 1 1 3 2 2 10% Boiling 3 3 3 2 2 25% - 50% Boiling 3 3 3 2 1 Paraffin, Hot/Cold12 11 Phenol (See Carbonic Acid) Petroleum Ether112 -- 2 Phosphoric Acid 1% 70 1* 1* 3 3 2 1% Boiling 1* 1* 3 3 2 Corrosion Evaluation Data page 07 / 09 chemicaltemp 304 ss 316l carbon bronze monel °f 321 ss steel 1% - 45lbs. Pressure 284 1 1 3 3 2 5% Quiescent or Agitated 70 1 1 3 3 2 5% Aerated 70 1 1 3 3 2 10% Quiescent 70 3 1 3 3 2 10% Agitated or Aerated 70 3 2 3 3 2 10% - 50% Boiling 1 1 3 3 3 80% 70 3 3 3 3 2 80% 230 3 3 3 3 3 85% Boiling 3 3 3 3 3 Pictic Acid70 113 3 3 Potassium Bichromate, 25% 25% 70 1 1 -- 3 2 Boiling 1 1 -- 3 2 Potassium Bromide70 2** 1** 3 2 2 Potassium Carbonate 1% 70 1 1 2 2 1 Potassium CarbonateHot 112 3 1 Potassium Chlorate, Sat. @ 212 Boiling 1 1 2 3 3 1% Quiescent 70 1** 1** 3 2 1 1% Agitated or Aerated 70 1 1 3 2 1 5% Quiescent 70 1** 1** 3 2 1 5% Agitated or Aerated 70 1 1 3 2 1 5% Boiling 1 1 3 2 1 5% 70 1** 1 3 2 -- Sp. G. 1.6 Boiling 3 3 3 3 -- Potassium Chloride Potassium Chromium Sulfate Potassium Cyanide70 112 3 2 Potassium Ferricyanide, 5% - 25% 70 1 1 3 -- 2 Boiling 1 1 3 -- 2 Potassium Ferrocyanide, 5% 70 1 1 3 -- 2 Potassium Hydroxide, 5% 70 1 1 2+ 2 1 27% Boiling 1 1 2+ 2 1 50% Boiling 2 1 3 3 3 25% Potassium Hypochlorite 7022333 Potassium Nitrate 1% - 5% Still or Agitated 70 1 1 3 2 1 1% - 5% Aerated 70 1 1 3 2 1 50% 70 1 1 3 2 1 50% Boiling 1 1 3 -- 1 Molten 1022 1 1 3 -- -- Potassium Oxalate11-- -- -Potassium Permanganate, 5% 70 1 1 2 -- 3 1% - 5% Still or Agitated 70 1 1 2 1 2 1% - 5% Aerated 70 1 1 2 1 2 Potassium Sulphate Hot 113 12 Potassium Sulphide (Salt)113 -- -Pyrogallic Acid112 -- -Quinine Bisulphate (Dry) 222---- Quinine Sulphate (Dry)113 2 2 Sea Water70 1** 1** 3 2 1 Corrosion Evaluation Data page 08 / 09 chemicaltemp 304 ss 316l carbon bronze monel °f 321 ss steel Sewage1** 1** -- 11 Silver Bromiode2** 1** 3 3 -Silver Chloride 33333 Silver Nitrate113 3 3 Soap70 112 11 Sodium Acetate (Moist)1** 13 -- 2 Sodium Bicarbonate All Concentrations 70 1 1 3 2 1 5% Still 150 1 1 3 2 1 Sodium Acetate (Moist)1** 13 -- 2 Sodium Bicarbonate All Concentrations 70 1 1 3 2 1 5% Still 150 1 1 3 2 1 Sodium Bisulphate, Solution Saturated Solution 70 1**1**3 2 2 70 3 3 3 2 2 2g + 1g H 2 SO 4 Liter 68 31** 322 Sodium Carbonate, 5% 70 - 150 1 1 2 2 1 5% - 50% Boiling 1 1 2 2 1 Molten 1650 3 3 3 3 1 70 - 150 1** 1 3 2 1 20% Aerated 70 1** 1 3 2 1 Saturated 70 1** 1 3 2 1 Saturated Boiling 2** 1 3 2 1 Sodium Chloride, 5% Still Sodium Cyanide70 112 3 -Sodium Fluoride, 5% Solution 70 2** 1** 3 1 1 Sodium Hydroxide70 112 2 1 Sodium Hypochlorite, 5% Still2** 1** 3 2 3 Sodium Hyposulphite70 1** 13 -- 1 Sodium Nitrate Fused 11212 Sodium Perchlorate, 10% 70 - 150 1 1 -- -- -- Boiling 11-- -- -Sodium Phosphate70 112 2 2 Sodium Sulphate, 5% Still 70 11311 All Concentrations 70 1 1 3 1 1 Sodium Sulphide, Saturated2** 13 3 2 Sodium Sulphite, 5%70 113 2 2 10% 150 1 1 3 2 2 Saturated Solution 70 1 1** 3 3 1 Acid Fixing Bath (Hypo) 70 1 1 3 3 2 25% Solution 70 1 1** 3 3 2 25% Solution Boiling 1 1** 3 3 2 70 3 3 3 3 3 Sodium Thiosulphate Stannic Chloride Solution Sp. G. 1.21 Boiling 3 3 3 3 3 Stannous Chloride, Saturated3 13 -- 3 Steam113 11 Stearic Acid70 113 2 2 Starch, Aqueous Solution11-- -- 2 Corrosion Evaluation Data page 09 / 09 chemicaltemp 304 ss 316l carbon bronze monel °f 321 ss steel Strontium Hydroxide11-- -- -Strontium Nitrate Solution Hot 113--2 Sulphur, Moist70 2** 1** 3 3 2 Molten 266 1 1 3 3 1 Molten 833 3 3 3 3 3 Sulphur Chloride (Dry)3 3 3 12 Sulphur Dioxide Gas (Moist) 70 2 1 3 2 3 575 1 1 3 1 2 5% - 10% 70 3 2 3 2 3 5% - 10% Boiling 3 3 3 3 3 50% 70 3 3 3 3 3 50% Boiling 3 3 3 3 3 Concentrated 70 1 1 3 2 3 Concentrated Boiling 3 3 3 2 3 Concentrated 300 3 3 3 2 3 Fuming 70 3 2 3 2 3 Gas (Dry) Sulphuric Acid Sulphurous Acid, Saturated 7032323 Saturated – 60 lb. Pressure 250 3 2 3 2 3 Saturated – 70 – 125 lb Pressure 310 3 2 3 2 3 150 lb Pressure 375 3 2 3 2 3 Sulphurous Spray 70 33333 Tannic Acid 70 11313 150 11-- 13 Tanning Liquor70 11-- -- 1 Tar112 12 Tartaric Acid113 12 Tin Molten 3333-Trichloracetic Acid 70 33323 Trichlorethylene (Dry)70 1** 13 11 (Moist) -- -- -- 2 -- Varnish70 112 11 Water112 11 Yeast11-- 3 1 Zinc Molten 33333 Zinc Chloride, 5% Still70 1** 1** 3 3 2 Boiling 2** 2** 3 3 2 Zinc Cyanide, Moist70 113 -- -Zinc Nitrate, SolutionHot 113 -- -Zinc Sulphate113 2 2 Glossary abrasion : External damage to a hose assembly caused by it being rubbed on a foreign object ambient or atmospheric conditions : The surrounding conditions, such as temperature, pressure, and corrosion, to which a hose assembly is exposed. amplitude of vibration and/or lateral movement : The distance a hose assembly deflects laterally to one side from its normal position, when this deflection occurs on both sides of the normal hose centerline. anchor : A restraint applied to a pipeline to control its motion caused by thermal growth. annular : Refers to the convolutions on a hose that are a series of complete circles or rings located at right angle to the longitudinal axis of the hose (sometimes referred to as bellows) application : The service conditions that determine how a metal hose assembly will be used. armor or casing : Flexible interlocked tubing placed over the entire length or in short lengths at the end of a metal hose to protect it from physical damage and to limit the bending radius. attachment : The method of fixing end fittings to flexible metal hose – welding, brazing, soldering, swaging, or mechanical. axial movement : Compression or elongation of the hose along its longitudinal axis. basket weave : A braided pattern in which the strands of wire alternately cross over and under two braid bands (two over – two under) bend radius : The radius of a bend measured to the hose centerline. braid : A flexible wire sheath surrounding a metal hose that prevents the hose from elongation due to internal pressure. Braid is composed of a number of wires wrapped helically around the hose while at the same time going under and over each other in a basket weave fashion. braid angle : The actual angle formed by the braid strands and the axis of the hose. braid makeup : Term applies to description of braid, i.e. 36 x 8 x 0.014, 304L SS, Where 36 = number of carries, which equals the number of bands in a braid; 8 = number of wires on each carrier; 0.014 = wire diameter in inches; 304L = material, type 304L stainless steel. page 01 / 04 braid sleeve, braid band, or rerrule : A ring, made from tube or metal strip placed over the ends of a braided hose to contain the braid wires for attachment of fittings. braid wear : Motion between the braid and corrugated hose which normally causes wear on the O.D. of hose. Braided Braid- In this braid, the strand of wire on each carrier of the braiding machine are braided together, and then braided in normal fashion, hence the term braided braid. brazing : A process of joining metals using a non-ferrous filler metal, which melts above 800 OF, yet less than the melting of the “parent metals” to be joined. butt weld : A process in which the edges or ends of metal sections are butted together and joined by welding. casing : (See Armor definition) controlled flexing : Controlled flexing occurs when the hose is being flexed regularly, as in connections to moving components. Example: Platen presses, thermal growth in pipe work. convolution : The annular or helical flexing member in corrugated or strip wound hose. corrosion : The chemical or electro-chemical attack of a media upon a hose assembly. cycle-motion : The movement from normal to extreme position and return. developed length : The length of a hose plus fitting (overall) required to meet the conditions of a specific application. diamond weave : A braid pattern in which the strands alternately cross over one and under one of the strands (one over – one under). Also known as plain weave. dye penetrant inspection or test : A method for detecting surface irregularities, such as cracks, voids, porosity, etc. The surface to be checked is coated with a red dye that will penetrate existing defects, Dye is removed from surface and a white developer is applied. If there is a defect in the surface being checked, the red dye remaining in it cause the white developer to be stained, thereby locating the defective area. displacement : The amount of motion applied to a hose defines as inches for parrel offset and degrees for radial misalignment. dog-Leg assembly : Two hose assemblies joined by a common elbow. Glossary duplex assembly : An assembly consisting of two hose assemblies – one inside the other – and connected at the ends. effective thrust area : Hose and Bellows- The cross-sectional area described by the outside diameter (at the tops of the convolutions) less two times the metal thickness of the hose or bellows. elastic (intermittent flexure) : The smallest radius that a given hose can be bent to without permanent deformation of the metal in its flexing members (convolutions or corrugations). erosion : The wearing away of the inside convolutions of a hose caused by the flow of the media conveyed, such as wet steam, abrasive particles, etc. exposed length : The amount of active (exposed) hose in an assembly. Does not include the length of fittings and ferrules. fatigue : Failure of the metal structure associated with, or due to, the flexing of metal hose or bellows. ferrule : (See definition for Braided Sleeve) fitting : A loose term applied to the nipple, flange, union, etc., attached to the end of a metal hose. page 02 / 04 helical wire armor : To provide additional protection against abrasion under rough operating conditions, metal hoses can be supplied with an external round or oval section of wire spiral. inside diameter : This refers to the free cross section of the hose and (in most cases) is identical to the nominal diameter. installation : Referring to the installed geometry of a hose assembly. interlocked hose : Formed from profiled strip and wound into flexible metal tubing with no subsequent welding, brazing, or soldering. May be made pressure tight by winding in strands of packing. intermittent bend radius : The designation for a radius used for non-continuous operation. Usually an elastic radius. lap weld (lw) : Type of weld in which the ends or edges of the metal overlap each other and are welded together. liner : Flexible sleeve used to line the I.D. of hose when the velocity of gaseous media is in excess of 180 ft per second. flat braid : Has a braid angle greater than 45O (see Braid Angle). loop installation : The assembly is installed in a loop or “U” shape, and is most often used when frequent and/or large amounts of motion are involved. flow rate : Pertains to a volume of media being conveyed in a given time period, e.g. cubic feet per hour, pounds per second, gallons per minute, etc. mechanical fitting or reusable fitting : A fitting not permanently attached to a hose which can be disassembled and used again. frequency : The rate of vibration or flexure of a hose in a given time period, e.g. cycles per second (CPS), cycles per minute (CPM), cycles per day (CPD), etc. medium (singular)/media (plural) : The substance(s) being conveyed through a piping system. galvanic corrosion : Corrosion that occurs on the less noble of two dissimilar metals in direct contact with each other in an electrolyte, such as water, sodium chloride in solution, sulphuric acid, etc. guide (for piping) : A device that supports a pipe radially in all directions, but allows free longitudinal movement. Hardware- A loose term used to describe parts of a hose assembly other than the hose and braid, e.g. fittings, collars, valves, etc. helical : Used to describe a type of corrugated hose having one continuous convolution resembling a screw thread. minimum bend radius : The smallest radius to which a hose can be bent without suffering permanent deformation of its convolutions. misalignment : A condition in which two points, intended to be connected, will not mate due to their being laterally out of line with each other. nominal diameter : A term used to define the dimensions of a component. It indicates the approximate inside diameter. offset - Lateral, Parallel, & Shear : The amount that the ends of hose assembly are displaced laterally in relation to each other as the result of connecting two misaligned terminations in piping system, or intermittent flexure required in a hose application Glossary operating conditions : The pressure, temperature, motion, media, and environment that a hose assembly is subjected to. outside diameter : This refers to the external diameter of a metal hose, measured from the top of the corrugation or braiding. penetration (weld) : The percentage of wall thickness of the two parts to be joined that is fused into the weld pool in making a joint. Our standard for penetration of the weld is 100% in which the weld goes completely through the parent metal of the parts to be joined and is visible on the opposite side from which the weld was made. percent of braid coverage : The percent of the surface area of a hose that is covered by braid. permanent bend : A short radius bend in a hose assembly used to compensate for misalignment of rigid piping, or where the hose is used as an elbow. Hose so installed may be subjected to minor and/or infrequent vibration or movement. pipe gap : The open space between adjacent ends of two pipes in which a hose assembly may be installed. Pitch- The distance between the two peaks of adjacent corrugation. ply, plies : The number of individual thicknesses of metal used in the construction of the wall of a corrugated hose. pressure : Usually expressed in pounds per square inch (PSI) and, depending on service conditions, may be applied internally or externally to a hose. A. Absolute Pressure : A total pressure measurement system in which atmospheric pressure (at sea level) is added to the gage pressure, and is expressed as PSIA. B. Atmospheric Pressure : The pressure of the atmosphere at sea level which is 14.7 PSI, or 29.92 inches of mercury. C. Burst Pressure (Actual and Rated) 1. Actual : Failure of the hose determined by the laboratory test in which the braid fails in tensile, or the hose ruptures, or both, due to the internal pressure applied. This test is usually conducted at room temperature with the assembly in a straight line, but for special applications, can be conducted at elevated temperatures and various configurations. page 03 / 04 C. Burst Pressure (Actual and Rated) 2. Rated : A burst value which may be theoretical, or a percentage of the actual burst pressure developed by laboratory test. It is expected that, infrequently, due to manufacturing limitations, an assembly may burst at this pressure, but would most often burst at a pressure greater than this. D. Deformation Pressure (Collapse) : The pressure at which the corrugations of a hose are permanently deformed due to fluid pressure applied internally, or, in special applications, externally. E. Feet of Water or Head Pressure : Often used to express system pressure in terms of water colum height. A column of water 1 ft high exerts a 0.434 PSI pressure at its base. F. Proof Pressure or Test Pressure : The maximum internal pressure which a hose can be subjected to without either deforming the corrugations, or exceeding 50% of the burst pressure. When a hose assembly is tested above 50% of its burst pressure, there often is a permanent change in the overall length of the assembly, which may be undesirable for certain applications. G. PSIA : Pounds per square inch absolute. H. PSIG : Pounds per square inch gauge. I. Pulsating Pressure : A rapid change in pressure above and below the normal base pressure, usually associated with reciprocating type pumps. This pulsating pressure can cause excessive wear between the braid and the tops of the hose corrugations. J. Shock Pressure : A sudden increase of pressure in a hydraulic or pneumatic system, which produces a shockwave. This shock can cause severe permanent deformation of the corrugations in a hose, as well as rapid failure of the assembly due to metal fatigue. K. Static Pressure : A non-changing constant pressure. L. Working Pressure : The pressure, usually internal, but sometimes external, imposed on a hose during operating conditions. Glossary pressure carrier : The hose portion of a braid assembly. Profile- Used in reference to the contour rolled into strip during the process of manufacturing stripwound hose, or the finished shape of a corrugation; formed from a tube by either the “bump-out”, “sink”, or roll forming processes, used in making corrugated hose. random motion : The non-cyclic uncontrolled motion of a metal hose, such as occurs in manual handling. Reusable Fitting (See Mechanical Fitting) safety factor : The relationship of working pressure to burst pressure. scale : Generally refers to the oxide in a hose assembly brought about by surface conditions or welding. An oxide. seamless : Used in reference to a corrugated metal hose made from a base tube that does not have a longitudinal seam as in the case of a butt weld or lap welded tube. squirm : A form of failure in which the hose is deformed into an “S” or “U” bend as the result of excessive internal pressure being applied to unbraided corrugated hose while its ends are restrained, or in a braided corrugated hose which has been axially compressed, loosening the braid, while the hose is pressurized. This is particularly true with long lengths of braided hose subjected to manual or mechanical handling. steep braid (angle) : Braid having a braid angle of less than 45O. strand(s) : Individual groups of wire in a braid. Each group is supplied from a separate carrier in the braiding machine. stress corrosion : A form of corrosion in stainless steel normally associated with chlorides. strip wound : (See definition for Interlocked) Tig Weld- The tungsten inert gas welding process sometimes referred to as shielded arc. The common trade name is heliarc. traveling loop : A general classification of bending, wherein the hose is installed to a U-shape configuration Class A Loop : An application wherein the radius remains constant and one end of the hose moves parallel to the other end of the hose. Class B Loop : A condition wherein a hose is installed in a U-shape configuration and the ends move perpendicular to each other so as to enlarge or decrease the with of the loop. page 04 / 04 torque (torsion) : A force the produces, or tends to produce, rotation of or torsion through one end of a hose assembly while the other end is fixed. velocity : The Speed at which the medium flows through the hose, usually specified in feet per second. velocity resonance : The sympathetic vibration of convolutions due to the buffeting of a high velocity gas or air flow. vibration : Low amplitude motion occurring at high frequency. welding : The process of localized joining of two or more metallic components by means of heating their surfaces to a state of fusion, or by fusion with the use of additional filler materials. CORPORATE PROFILE The A.R. Thomson Group was established in 1967 as a regional manufacturer/distributor of gaskets and other fluid containment products. With the rapid growth of oil and gas production, petrochemical, oil refining and pulp and paper industries, our manufacturing facilities expanded to meet increased demand for these products. We currently design and manufacture a wide variety of products using the latest technology. ARTG has also increased the product scope for its Fluid Control Division. This includes a complete line of process and specialty valves along with fittings, pumps and accessories for process as well as product transfer piping systems. Further to our industrial product offering, we have developed an Energy Efficiency and Environmental program which identifies and minimizes system inefficiencies. The various elements of the program can significantly reduce operating costs and environmental impact. As part of this program ARTG has developed a technical services team which provides on-site training, equipment surveys and audits, application engineering and maintenance and repair optimization programs. Since 1967, we have developed our expertise and know-how to become the leader in solving fluid containment and control problems. No matter what your control or containment needs, we can help. BRITISH COLUMBIA *Surrey 3420 - 189 Street V3Z 1A7 Phone: (604) 507-6050 Fax: (604) 507-6098 Parksville Prince George Trail #8, 1009 Allsbrook Road V9P 2A9 Phone: (250) 954-1543 Fax: (250) 954-1591 #7, 1839 - 1 Avenue V2L 2Y8 Phone: (250) 563-1444 Fax: (250) 563-2644 Resident Sales Rep. Phone: (250) 368-1239 Fax: (604) 507-6098 ALBERTA Calgary *Edmonton #7, 6320 - 11 Street SE T2H 2L7 Phone: (403) 253-0161 Fax: (403) 258-0394 10030 - 31 Avenue T6N 1G4 Phone: (780) 450-8080 Fax: (780) 463-2021 SASKATCHEWAN *Regina 707E McDonald Street S4N 5M2 Phone: (306) 584-2422 Fax: (306) 584-2599 Thunder Bay *Fort McMurray #102, 6902 - 98 Street T0H 0W0 Phone: (780) 538-1792 Fax: (780) 538-3488 MANITOBA ONTARIO *Sarnia Saskatoon Winnipeg Resident Sales Rep. Phone: (306) 716-6423 Fax: (306) 584-2599 Resident Sales Rep. Phone: (204) 999-3997 Fax: (306) 584-2599 281 Campbell Street N7T 2H2 Phone: (519) 336-3678 Fax: (519) 336-0589 QUEBEC NEW BRUNSWICK NOVA SCOTIA *Pointe-Claire, PQ Resident Sales Rep. Phone: (807) 628-4279 Fax: (807) 623-5480 *Red Deer County Clairmont 230F Mackay Crescent T9H 5C6 Phone: (780) 790-0730 Fax: (780) 790-0278 294 Labrosse H9R 5L8 Phone: (514) 694-2442 Fax: (514) 694-2445 215 Clearskye Way T4E 0A1 Phone: (403) 341-4511 Fax: (403) 341-4243 Mississauga #1A, 3350 Ridgeway Drive L5L 5Z9 Phone: (905) 607-6587 Fax: (905) 607-6994 Dartmouth Resident Sales Rep. Phone: (506) 623-9254 Fax: (506) 773-3048 #32, 10 Morris Drive B3B 1M2 Phone: (902) 468-9120 Fax: (902) 468-9087 * Denotes manufacturing location WWW.ARTHOMSON.COM