234782-2 Metal Hose

PG 47-64_Metallic Hose Catalog 12/2/2022 10:16 AM Page 2 Quick Couplings (N)T92H Built In Safety Features Thorburn Flex (N)T92H is a dry break, zero leak, quick coupling, with mating convex and concave ball valves on each side of the coupling. The (N)T92H unique design features provides up to five levels of independent safety mechanisms to prevent spills and ac- cidental release of dangerous contaminants in the environment. The safety features are based on a combination of locking mecha- nisms that prevent wrong operation of the coupling by allowing only the preset sequential operation. • Ball Valve Zero Gap System (Convex (male end) & Concave (female end)) prevents hazardous chemical loss during disconnection. • Valve Handle Locking System locks the handle in the off position to safeguard against accidental opening when disconnected. • Safety Locking Mechanism incorporates a Valve Handle Safety Locking Pin to prevent accidental openings. • The Locking Pin is guided by the Valve Handle on the male end coupler into the Locking Pin Slot on the female end coupler. • Locking Pin Slot (female end) locks the coupling halves together and protects against accidental disconnection during operation. Ball valve “Zero Gap” system Valve handle locking system Safety Locking Mechanism Locking Pin Locking Pin Slot (N)T92H Performance Characteristics Adapter/Coupler End Size Spillage Maximum Flow Rate Max. Working Weight Temperature Size Emissions Pressure (min. 4-1 Safety) Male Female Min Max lb kg lb kg ºF ºC ºF ºC in mm in DIN cc ppm GPM l/min psi bar 4.02 1.82 4.23 1.92 -459 -273 400 204 3000 207 1 25 3/4,1 20, 25 < 0.1 < 25 60 227 1800 124 17.45 7.92 17.44 7.91 -459 -273 400 204 1000 69 2 50 1 1/2, 2 40, 50 < 0.2 < 25 180 681 33.70 15.2 30.65 13.9 -459 -273 400 204 3 80 3 80 <1 < 25 350 1325 (N)T92H For Cryogenic Unloading Thorburn’s (N)T92H series is the worlds first dry break full flow coupling used for liquid cryogenic loading/unloading service. A dra- matic innovation over the poppet style cryogenic coupling which has inherent spillage when disconnected. The (N)T92H coupling has an easy turn action to connect and start the product flow. The full unrestricted flow will dramatically increase loading & unload- ing productivity of cryogenic liquids. The dry break technology will protect the environment and the operator’s safety. Applications Advantages Thorburn’s NT92H dry break couplings ideal for cryogenic LNG tank truck loading/unloading. Available with tank truck & railcar flanges • Transfer of LIN/LOX/LAR, • Easy push & turn connection CO2, Nitrous Oxide & LNG • The valves cannot be opened © 2022 Thorburn Flex Inc • Loading/unloading of tank when coupling is disconnected trucks, rail tankers • The coupling cannot be discon- • Container discharge nected when the valves are open • Fuel bunkering • Reliable dry break with poppet • Vapor recovery lines valves 48

PG 47-64_Metallic Hose Catalog 12/2/2022 10:16 AM Page 3 A Proven Leader In Flexible Piping Technology Problematic Quick Disconnect Coupling Technologies Cam and Groove type couplings are incapable of avoiding spillage and vapor leakage upon dis- connection. They are prone to accidental disconnects which can be expensive and extremely hazardous. Cam & Groove Type = Spillage Ordinary Ball Valves Added = Spillage Ordinary Ball Valves added to quick couplings to shut off the flow allow trapped liquid between Traditional Poppet Valves = Spillage the hose and the adapter to flow freely on to your plants floor or your employees hands upon disconnection. Traditional two-way poppet valve style dry break couplings by its very design are predisposed to spills because of the unavoidable liquid that is trapped in the gap between the coupler pop- pet valve and the adapter poppet valve upon disconnection. (N)T92H Easy to Operate Dry Break Solution The (N)T92H coupling has an easy turn action to connect and start the product flow. The valves will not open until both coupling halves are connected properly. The coupling halves are first aligned and then connected with a push, followed by a quarter turn. There are no threads to damage by over tightening and no failure prone cam and groove latch connections to secure. The coupling halves are independent “shut off” ball valves that are controlled manually by rotating the valve handles in a specific sequence. Align coupling halves Push together & turn 90º Coupling connected & locked Open male end valve Open female end valve The (N)T92H can only be disconnected when both the valves are shut off in sequence; female end valve first and then male end valve second. This ensures zero spillage and protects against accidental disconnection. How To Order (N)T92H Series Dry Break Coupling Model Valve Size Type Body Material End Size 1st End 2nd End Seal Options (Wetted Parts) (N)T92H 16 0 S6 32 1 1 1 DC 16 = 1”(DN 25) C = Coupler S6=SA 479 type 12 = 3/4” 1=FNPT 13=Sanitary Flange 1=UMHW H = Handle 32 = 2”(DN 50) (Socket) 316SS, (DN 20) 2=PTFE DC = Dust Cap 48 = 3”(DN 80) EN1.4404 2=FBSP 14=Tank Truck Flange 3=PEEK XX = Specify N = Plug 16 = 1” (Nipple) S5=SA 564 type (DN 25) 3=O-Seal XX=Specify 630 EN1.4548 24 = 1 1/2” 4=SCH 40 Butt Weld YY=Specify H16=Hasteloy (DN 40) 5=SCH 80 Butt Weld SB574 type C276 32 = 2” 6=ANSI 150# Flange EN2.4819 (DN 50) 7=ANSI 300# Flange 48 = 3” (DN 80) 8=ANSI 600# Flange 9=PN10 Flange 10=PN16 Flange 11=PN25 Flange 12=PN40 Flange w w w.thorburnflex.com 49

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 4 Quick Couplings (N)T52 Series - Non-Valved Full Flow Cryogenic Couplings Thorburn’s (N)T52 Series cryogenic quick coupling system is designed, engi- neered & manufactured to provide safe, reliable, leak tight quick connect & dis- connect for cryogenic fluids. Thorburn’s (N)T52 is an ideal quick coupling to replace threaded union type connectors where speed and convenience is a requirement. The (N)T52 standard seals are made of UHMW polyethylene. Features & Benefits Temperature ranges down to -269ºC (452ºF) Ball Bearing Locking Mechanism Working Pressure & Force To Connect • Multiple ball bearings for better load distribution • Live swivel to eliminate torsion load SIZE (inch) 3/8 1/2 3/4 1 1 1/2 2 • Facilitates alignment during connection Extended Sleeve Holder Working Pressure (psi)* 500 500 500 500 150 150 • Larger gripping space Force To Connect (lbs) 2 2 45 7 10 Compression Spring • Automatically returns the sleeve to its original position * Maximum working pressure is base on a 4:1 safety factor. Higher pressures available. Standard UHMW Polyethylene Seal • Ideal for liquid nitrogen service Extended Sleeve Holder Ultrasonic Cleaning • Removes contaminates & minimizes frost build up Retaining Ring UHMW Quality & Design Polyethylene Seal • Full traceability of all pressure retaining components • CRN for all Canadian Provinces Ball Bearing Compression Spring Locking Mechanism Benefits of UHMW PE Seal Nipple / Plug Half Coupler / Socket Half (Ultra High Molecular Weight Polyethylene) • Low temperature -459.67ºF (-273.15ºC) without material degradation • Self-lubricated material with low coefficient of friction, that reduces force required to connect / disconnect coupling halves • High impact strength and abrasion resistance that outwears carbon steel 10 to 1 • Good chemical resistance to organic solvents, de-greasing agents and electrolytic attack. • Very low moisture absorption that prevents ice formation when used for low temperature fluids How To Order (N)T52 Series Couplings Model Size ID Body Type Coupler Size End Seal Material NT52 08 P C 08 F U S6 Hose size in P = Straight C = Coupler Hose size in M = Male B = Buna N S6 = 316SS 1/16 of an inch Through (Socket) 1/16 of an inch NPTF V = Viton Examples: Examples: N = Neoprene 01 = 1/16 N = Plug 01=1/16 F = Female E = EPDM 02 = 1/8 (Nipple) 02=1/8 NPTF T = PTFE 04 = 1/4 04=1/4 Z = High Temp 06 = 3/8 Options: 06=3/8 08 = 1/2 SL = Sleeve Lock 08=1/2 PTFE 12 = 3/4 Place suffix “SL” at end of part number 12=3/4 X = Other 64 = 4 64=4 etc. etc. (Specify) 50 © 2022 Thorburn Flex Inc

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 5 A Proven Leader In Flexible Piping Technology MT3TL Series - Met-O-Seal Tanker Truck/Car Loading Quick Coupling Thorburn's Met-O-Seal Series MT3TL is an all purpose lightweight tanker loading/unloading quick coupling designed for leakproof operation as it cycles through a wide range of temperatures. The design offers a non restrictive flow with no variation in pipe diameter, leak proof operation with cryogenic liquids (LN2, LOX, LH2) and gaseous service. Thorburn Met-O-Seal with looped handles Left (Female) End Safety External Ring Sleeve Compensation Tanker truck cryogenic bottom loading station Disk Features Right (Male) End • Designed for use with liquids or gases from ambient to cryogenic • Repeatedly reusable low temperature metal to metal seal • Vents residual pressure prior to complete uncoupling • Light torque when tightening by hand or wrench to working pressure • Easily disconnected at cryogenic temperatures, no frost balling • Reusable primary metal to metal wedge seal • Thermal cycling compensation Thorburn Nominal Working Minimum Technical Number Size Pressure Length • Leak rates (when connected) <1 x 10-9 std. cc. He/S. MT3TL16XYM (in) (mm) (psi) (bar) (in) (mm) MT3TL24XYM • Full vacuum to 5,000psi, Cryogenics to 1500ºF MT3TL32XYM 1 25 2400 165 3.00 80 MT3TL48XYM 3.75 95 • Backup seal temperature rating: MT3TL64XYM 1 1/2 38 2200 152 4.00 102 5.50 140 PTFE -273ºC (-459ºF) to 204ºC (400ºF) Code: J 2 50 5.50 140 2000 138 HNBR -40ºC (-40ºF) to 150ºC (300ºF) Code: N 3 80 1200 83 FKM -40ºC (-40ºF) to 175ºC (350ºF) Code: I 4 100 750 52 • Designed and tested to ASME B31.1 & B31.3 End Codes - X = Left End, Y = Right End, • All stainless steel are nitrated to reduce galling 1=Female thread (NPT), 2=Male thread (NPT), 3=Butt weld, 4=Socket weld female Body Material Codes - M MT3TL Met-O-Seal Model MT3TL (3 pieces) C = Carbon Steel (SA105), C1 = Carbon Steel (SA350-LF2), AL = Aluminum 32 Size: 2 inch S4 = 304SS, S6= 316SS, I12 = Alloy 825, H16 = Hastelloy C276, XX= Specify 1 Left End: Female Thread (NPT) External Sleeve Material Codes 4 Right End: Socket Weld Female AL = Aluminum, S6 = 316SS, C = SA105, C1 = SA350-LF2 C Material: Carbon Steel (SA105) Options N Backup Seal Material: HNBR LH = Loop handle sleeve (handle material is same as external sleeve) S6 External Sleeve Material: 316SS LH Loop Handle Sleeve (316SS) Part Number Example & Description (Part number must follow the order listed below) MT3TL-32-1-4-C-N-S6-LH w w w.thorburnflex.com 51

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 6 MTS4 Series - Met-O-Seal Quick Couplings Quick Couplings Cryogenic Liquids & Elusive Gases Thorburn's Met-O-Seal Series MTS4 is a unique, thermally active quick coupling system specifically designed for leak proof make and break connections for operation with cryogenic liquids (LN2, LOX, LH2) and gaseous service. The reusable ferrule seal is made from different materials with different thermal and hardness properties than the coupling ends. Therefore, the seal is strengthened when changes in temperature occur. Applications Thorburn’s Met-O-Seal Series MTS4 hose coupling used for loading liquid helium in an MRI machine at -269ºC (-452ºF) just above absolute zero. Magnets at that Nuclear Generating Plant: a) Core feeder piping freezing systems LN2 is used to freeze temperature lose all electrical resistance and become superconducting thus produce the same magnetic field for a thousand years with no more power required. water in the piping during pipe inspection. Met-O-Seal couplings are the cryogenic quick coupling b) Ion exchangers \"Met-O-Seal\" replace conventional flanges to allow wrench free operation c) Steam piping system high temperature/pressure (up to 800ºF / 3000 psi) High vacuum systems: Composite building autoclave quick coupling Cryogenics liquids & elusive gases: LN2, LOX, LH2, H12, etc. Technical Thorburn Nominal Working Minimum Number Size Pressure Length • Leak rates (when connected) <1 x 10-9 std. cc. He/S. • Full vacuum to 5,000psi, Cryogenics to 1500ºF MTS416XYM (in) (mm) (psi) (bar) (in) (mm) MTS424XYM 2.5 63.5 • Backup seal temperature rating: MTS432XYM 1/4 6 5000 345 2.5 63.5 PTFE -273ºC (-459ºF) to 204ºC (400ºF) MTS448XYM 2.5 63.5 HNBR -40ºC (-40ºF) to 150ºC (300ºF) Code: J MTS464XYM 3/8 10 5000 345 2.75 70 FKM -40ºC (-40ºF) to 175ºC (350ºF) Code: N MTS464XYM 2.75 70 Code: I MTS464XYM 1/2 12.7 4800 330 3.5 90 MTS464XYM 4600 317 4.5 114 • Designed and tested to ASME B31.1 & B31.3 MTS464XYM 3/4 19 5.5 140 5.5 140 • All stainless steel are nitrated to reduce galling 1 25 4000 276 3800 262 • Light torque when hand tightening to rated pressures 1 1/2 38 2 50 3600 248 3200 221 3 80 Part Number Example & Description 4 100 3000 207 (Part number must follow the order listed below) End Codes - X = Left End, Y = Right End 1=Female thread (NPT), 2=Male thread (NPT), 3=Butt weld, 4=Socket weld female MTS4-16-1-4-C-BR-J-AL Body Material Codes - M MTS4 Met-O-Seal Model MTS4 (4 pieces) C = Carbon Steel (SA105), C1 = Carbon Steel (SA350-LF2), AL = Aluminum 16 Size: 1 inch (DIN 25) S4 = 304SS, S6= 316SS, I12 = Alloy 825, H16 = Hastelloy C276, XX= Specify 1 Left End: Female Thread (NPT) 4 Right End: Socket Weld Female Ferrule Seal Material Codes S6 End Material: Stainless Steel (316SS) AL = Aluminum, BR = Brass BR Ferrule Seal Material: Brass J Backup Seal Material: PTFE External Sleeve Material Codes AL External Sleeve Material: Aluminum AL = Aluminum, S6 = 316SS Options LH = Loop handle sleeve (handle material is same as external sleeve) 52 © 2022 Thorburn Flex Inc

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 7 A Proven Leader In Flexible Piping Technology (N)UO Series - O-SealTM Never Leak Pipe Unions Thorburn O-SealTM Unions are recommended where piping require- ments dictate the necessity of having a flat face seat to make and break the pipeline or when leaky metal-to-metal seat unions are un- acceptable. Thorburn’s O-SealTM Unions are designed to comply with current industry standards for pressure piping. These standards in- clude ANSI B31.1 “Power Piping”, ANSI B16.11, MSS SP83 “Forged Steel Fittings Socket Welded & Threads” and ASME “Boiler & Pres- sure Vessel Code”. Features Traditional metal to metal union sealing surfaces rust when they are stored outside and are exposed to humidity. When this happens and • Never needs retightening, no maintenance installed in piping systems, it is inevitable that leaks will occur and it • Won’t vibrate loose even under extreme doesn’t matter how much torque is applied to stop the leaks, the tra- ditional metal to metal unions will continue to leak. This becomes an vibration or pressure surges extremely frustrating experience for contractors, EPCs and owners • Unlimited brake/remake especially when it occurs during project commissioning and testing. • Hand tight pressures to 200 bar • Flat face construction, easy slip in & out Thorburn’s O-SealTM Unions are an excellent alternative to metal to • Dielectric insulating unions prevent galvanic metal seat unions because they are dimensionally similar to the MSS SP83 forged union and will corrosion deterioration not leak because the seal • Hammer Lug Nut for fast make and break is made on the O-Ring not • Ideal union to seal Oxygen, Nitrogen on the metal to metal • 3000, 6000 & 9000 psi ratings available seat like traditional unions. Technical Data Won’t vibrate loose even under extreme vibration or pressure surges • Materials: SA105 Carbon Steel, SA182 Type 316. Option SA350LF2, Hastelloy, Inconel • ASME B31.1, B31.3 & ANSI B16.11 forged steel fittings Don’t settle for leaky metal on metal sealing pipe unions 3000 lb MSS SP83 forged union with rusted sealing surfaces leak- Thorburn’s O-Seal (blue) 3000 lb union uses an elastomeric seal ing with no pressure in the piping line. Once the sealing surfaces that compensates and seals on any compromised surfaces are rusted or compromised, they will always leak no matter how no matter how rusted or scratched much torqued is applied 53 w w w.thorburnflex.com

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 8 Quick Couplings Union nut with handles Threaded piece with Thorburn O-SealTM assembled female threaded retained O-Ring seal union with handle bar lug nuts Threaded tail piece Nominal A B C F Size Overall Length Hex Tail Piece Thread Piece A (in) (mm) (in) (mm) (in) (mm) (in) (mm) (in) (mm) CD 1/8 3 1.660 42 1 3/8 35 0.785 20 0.875 22 1/4 6 1.660 42 1 3/8 35 0.785 20 0.875 22 Tail Piece B 3/8 10 1.800 46 1 1/2 38 0.875 22 0.935 24 1/2 2.035 52 1 7/8 48 0.935 24 1.100 28 Threaded Piece 3/4 12.7 2.148 55 2 1/8 54 1.023 26 1.125 32 1 19 2.570 65 2 1/2 64 1.258 32 1.312 33 1 1/4 25 2.822 72 80 1.385 35 1.437 37 1 1/2 32 3.072 78 3 86 1.510 38 1.562 40 2 38 3.259 83 3 3/8 98 1.572 40 1.687 43 2 1/2 50 3.635 92 3 7/8 124 1.760 45 1.875 48 3 64 4.135 105 4 7/8 140 2.010 51 2.125 54 80 5 1/2 Note: millimeters have been rounded How to Order (N)UO Series Pipe Unions UNION  TAIL PIECE  THREAD PIECE  SIZE  CLASS O-RING CODES* BODY MATERIAL OPTIONS* TYPE CODES CODES CODES CODES D = BUNA N** CODES 1 = 3000 lbs J = PTFE O = ORIFICE (N)UO FP FP 02 (1/8) H = EPDM CS = A105** D = DIELECTRIC 2 = 6000 lbs I = FLUOROCARBON S4 = 304SS** MP MP 04 (1/4) S6 = 316SS** INSULATED (VITON)* H = HASTELLOY H = HANDLE BAR SP SP 06 (3/8) I = INCONEL * Only Applicable to M = MONEL LUG NUT ST ST 08 (1/2) O-Seal Unions BW BW 12 (3/4) CODE DESCRIPTIONS 16 (1) Union Type Code End Type Codes 20 (1 1/4) (N)UO=O-Seal Union FP=FNPT Pipe 24 (1 1/2) MP=MNPT Pipe 32 (2) SP=Socket Weld Pipe 40 (2 1/2) ** Standard Material * Only Applicable to ST=Socket Weld Tube 48 (3) O-Seal Unions BW=Butt Weld Pipe Part Number Example & Description UO O-Seal Union FP Tail Piece - Female FNPT Pipe (Part number must follow the order listed below) FP Thread Piece - Female FNPT Pipe 16 Size 1 inch UO-FP-FP-16-1-H-S6-D 1 3000 lbs Class H EPDM O-Ring Material S6 Stainless Steel Material D Dielectric Insulation Option Notes: Prefix (N) is used for code compliance. When Nuclear Class 2, 3 or 4 is required insert NC2 for Class 2 NC3 for Class 3 & NC4 for Class 4 at the end of the part number. Nuclear Class 6 leave blank. 54 © 2022 Thorburn Flex Inc

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 9 A Proven Leader In Flexible Piping Technology Guard-LokTM Series - Camlock Quick Couplings Thorburn’s Camlock Quick Couplings with Guard-LokTM Technology Simple Connect/Disconnect Secured Sealing Thorburn’s Camlock Guard-LokTM Coupling Series have mechanism built into the levers which prevent accidental disconnection during operation. The coupling levers lock themselves automatically into the coupler body in the closed position and stay locked until opened manually. Ideal for applications where vibration is present, hose assem- blies are dragged or the coupling could be accidentally opened. Guard-LokTM Guard-LokTM Advantages Thorburn 733C-HD High Pressure Coupler • Locks shut with one smooth motion with 4 automatic Guard-LokTM locking levers • Levers automatically lock to the body when closed • Prevents accidental disconnection during operation Thorburn’s PTFE Encapsulated Rubber Gasket System Male Camlock Hose End 633E (Use prefix “N” only for ASME Code Applications) Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) Part Number Adapter/Coupler Hose Shank (B) (D) Size Size Outside Exposed (N)633E-XX-08 Diameter Length (N)633E-XX-12 (N)633E-XX-16 in mm in mm in mm in mm (N)633E-XX-20 .5 13 .5 13 (N)633E-XX-24 .75 20 .75 20 1.26 32 2.6 67 (N)633E-XX-32 1.0 25 1.0 25 (N)633E-XX-40 1.25 32 1.25 32 1.26 32 2.6 67 (N)633E-XX-48 1.5 38 1.5 38 (N)633E-XX-64 2.0 50 2.0 50 1.63 41 3.0 76 (N)633E-XX-96 2.5 64 2.5 64 3.0 76 3.0 76 2 51 3.5 89 Code: XX = S6 (316SS) 4.0 102 4.0 102 B 6.0 152 6.0 152 2.14 54 3.6 91 D 2.64 67 4.0 102 3.07 78 4.5 114 3.70 94 4.75 121 4.71 120 5.0 127 7.10 180 6.7 170 Female Camlock Coupler Hose End 733B/633B (Use prefix “N” only for ASME Code Applications) Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N, EPDM (250ºF), FKM, PTFE (ER) (210ºF) Part Number Adapter/Coupler Hose Shank (A) (B) (D) Size Size O.D. Extended Outside Exposed (N)733C(633C)-XX-Y-08 Diameter Length (N)733C(633C)-XX-Y-12 in mm in mm Cam Arms (N)733C(633C)-XX-Y-16 .5 13 .5 13 in mm in mm (N)733C(633C)-XX-Y-20 .75 20 .75 20 in mm (N)733C(633C)-XX-Y-24 1.0 25 1.0 25 (N)733C(633C)-XX-Y-32* 1.25 32 1.25 32 4.51 115 2.11 54 2.4 61 (N)733C(633C)-XX-Y-40 1.5 38 1.5 38 (N)733C(633C)-XX-Y-48* 2.0 50 2.0 50 4.51 115 2.11 54 2.4 61 (N)733C(633C)-XX-Y-64* 2.5 64 2.5 64 (N)733C(633C)-XX-Y-96* 3.0 76 3.0 76 5.10 130 2.44 62 2.8 71 4.0 102 4.0 102 6.0 152 6.0 152 6.86 174 3.26 83 3.14 80 7.16 182 3.56 90 3.35 85 A 7.54 192 3.94 100 3.75 95 B 8.03 204 4.43 113 4.0 102 D 9.56 243 5.46 139 4.3 109 10.56 271 6.56 167 4.5 114 16.26 413 10.16 258 6.0 152 Note: * Sizes for 733C-HD Only. When ordering 633C, pressures are less than shown above | Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) w w w.thorburnflex.com 55

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 10 Quick Couplings Female Camlock Adapter 633A (Use prefix “N” only for ASME Code Applications) Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL (Aluminum) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) - Stainless Steel Only Thread Size: Standard NPT Optional: Use Code ZZ & Specify (BSP, BSPT, DIN, JIS) E Adapter Thread (C) (E) (F) (G) Size Size Overall Inside Across Chain Lug Part Number Length Diameter Corners Extension in mm in mm in mm in mm in mm in mm .5 13 .5 13 .34 9 (N)633A-XX-08 .75 20 .75 20 1.6 41 .53 13 1.12 28 .34 9 (N)633A-XX-12 1.0 25 1.0 25 .33 8 C (N)633A-XX-16 1.25 32 1.25 32 1.62 41 .75 20 1.49 38 .31 8 G (N)633A-XX-20 1.5 38 1.5 38 .27 7 (N)633A-XX-24 2.0 50 2.0 50 1.91 49 .88 22 1.76 45 .44 11 (N)633A-XX-32 2.5 64 2.5 64 .39 10 (N)633A-XX-40 3.0 76 3.0 76 2.16 55 1.04 26 2.19 56 .60 15 (N)633A-XX-48 4.0 102 4.0 102 (N)633A-XX-64 6.0 152 6.0 152 2.29 58 1.35 34 2.44 62 (N)633A-XX-96 2.54 65 1.72 44 2.92 74 2.75 79 2.14 54 3.49 89 F 2.84 72 2.8 71 4.22 107 3.16 80 3.78 96 5.41 137 3.35 85 5.90 150 7.70 196 Code: XX = S6 (316SS), AL (Aluminum) Male Camlock Adapter 633F (Use prefix “N” only for ASME Code Applications) Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL (Aluminum) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) - Stainless Steel Only Thread Size: Standard NPT Optional: Use Code ZZ & Specify (BSP, BSPT, DIN, JIS) Part Number Adapter Thread (C) (D) (E) (F) (G) Size Size Overall Exposed Inside Across Chain Lug (N)633F-XX-08 Length Length Diameter Corners Extension GF (N)633F-XX-12 in mm in mm in mm in mm in mm in mm in mm E (N)633F-XX-16 .5 13 .5 13 2.47 63 1.67 42 .56 14 1.42 36 (N)633F-XX-20 .75 20 .75 20 .34 9 D (N)633F-XX-24 1.0 25 1.0 25 2.47 63 1.67 42 .75 19 1.42 36 .34 9 C (N)633F-XX-32 1.25 32 1.25 32 .30 8 (N)633F-XX-40 1.5 38 1.5 38 2.89 73 1.99 51 .85 22 1.75 45 .28 7 (N)633F-XX-48 2.0 50 2.0 50 .29 7 (N)633F-XX-64 2.5 64 2.5 64 3.23 82 2.23 57 1.04 26 2.16 55 .44 11 (N)633F-XX-96 3.0 76 3.0 76 .40 10 4.0 102 4.0 102 3.29 84 2.31 59 1.34 34 2.44 62 .60 15 6.0 152 6.0 152 3.57 91 2.57 65 1.72 44 2.84 72 4.18 106 2.78 71 2.14 54 3.45 88 4.37 111 2.87 73 2.80 71 4.07 103 4.79 122 3.19 81 3.78 96 5.27 134 5.20 132 3.40 86 5.84 148 7.70 196 Code: XX = S6 (316SS), AL (Aluminum) Socket Weld Camlock Adapter 633ASW (Use prefix “N” only for ASME Code Applications) Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL (Aluminum) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) Adapter (A) (B) (C) (D) (E) Size Socket Outside Inside Overall Part Number Depth Diameter Diameter Length Socket Diameter Pipe Tube in mm in mm in mm in mm in mm in mm in mm C (N)633ASW-XX-08 .5 13 .30 8 1.00 25 .53 14 1.00 25 .88 22 .52 13 (N)633ASW-XX-12 .75 20 .30 8 1.25 32 .75 20 1.13 29 1.10 28 .77 20 (N)633ASW-XX-16 1.0 25 .30 8 1.45 37 .88 22 1.44 37 1.36 35 1.02 26 (N)633ASW-XX-20 1.25 32 .30 8 2.00 50 1.06 27 2.00 50 1.71 43 1.27 32 (N)633ASW-XX-24 1.5 38 .40 10 2.25 64 1.35 34 2.13 54 1.95 49 1.52 39 D (N)633ASW-XX-32 2.0 50 .40 10 2.74 70 1.81 46 2.50 64 2.44 62 2.02 51 (N)633ASW-XX-40 2.5 64 .40 10 3.25 83 2.14 54 2.56 65 2.94 74 2.52 64 A (N)633ASW-XX-48 3.0 76 .40 10 3.75 95 2.81 71 2.75 70 3.57 91 3.02 77 E (N)633ASW-XX-64 4.0 102 .50 13 5.01 127 3.00 76 2.97 75 4.58 116 4.03 102 (N)633ASW-XX-96 6.0 152 .60 15 7.00 178 5.84 148 2.90 74 6.72 171 6.03 153 B Code: XX = S6 (316SS), AL (Aluminum) 56 © 2022 Thorburn Flex Inc

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 11 A Proven Leader In Flexible Piping Technology Butt Weld Camlock Adapter 633FBW (Use prefix “N” only for ASME Code Applications) Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) Part Number Adapter (C) (B) Size Overall Inside (N)633FBW-XX-08 Length Diameter (N)633FBW-XX-12 B (N)633FBW-XX-16 in mm in mm in mm C (N)633FBW-XX-20 .5 13 1.43 36 .53 13 (N)633FBW-XX-24 .75 20 1.40 35 .75 19 PIPE/TUBE I.D. (N)633FBW-XX-32 1.0 25 1.74 44 .88 22 PIPE/TUBE O.D. (N)633FBW-XX-40 1.25 32 1.99 51 1.06 27 (N)633FBW-XX-48 1.5 38 2.06 52 1.25 32 G (N)633FBW-XX-64 2.0 50 2.50 64 1.75 44 C (N)633FBW-XX-96 2.5 64 2.44 62 2.14 54 3.0 76 2.75 70 2.81 71 Code: XX = S6 (316SS) 4.0 102 2.88 73 3.75 95 6.0 152 3.00 76 5.84 148 Camlock Plug Adapter 633DP (Use prefix “N” only for ASME Code Applications) Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL (Aluminum) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) - Stainless Steel Only Part Number Adapter (C) (G) Size Overall Chain Lug (N)633DP-XX-08 Length Extension (N)633DP-XX-12 in mm (N)633DP-XX-16 in mm in mm .5 13 (N)633DP-XX-20 .5 13 1.06 27 (N)633DP-XX-24 .75 20 1.41 36 .59 15 (N)633DP-XX-32 1.0 25 1.35 34 (N)633DP-XX-40 1.25 32 1.94 49 .96 24 (N)633DP-XX-48 1.5 38 2.06 52 (N)633DP-XX-64 2.0 50 1.90 48 .62 16 (N)633DP-XX-96 2.5 64 2.44 62 3.0 76 2.03 52 .50 13 Code: XX = S6 (316SS), AL (Aluminum) 4.0 102 2.10 53 6.0 152 2.28 58 .70 18 .81 21 1.0 25 1.0 25 1.0 25 Male Camlock Adapter Coupler 733B/633B Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL (Aluminum) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) - Stainless Steel Only Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) Thread Size: Standard NPT Optional: Use Code ZZ & Specify (BSP, BSPT, DIN, JIS) Part Number Adapter Thread (A) (B) (C) (D) (E) Size Size O.D. Extended Outside Overall Exposed Inside (N)733B(633B)-XX-Y-08 Diameter Length Length Diameter A (N)733B(633B)-XX-Y-12 in mm in mm Cam Arms in mm in mm in mm in mm B (N)733B(633B)-XX-Y-16 .5 13 .5 13 in mm 2.11 54 2.10 53 1.25 32 .56 14 (N)733B(633B)-XX-Y-20 .75 20 .75 20 4.51 115 D (N)733B(633B)-XX-Y-24 1.0 25 1.0 25 2.11 54 2.10 53 1.25 32 .78 20 C (N)733B(633B)-XX-Y-32 1.25 32 1.25 32 4.51 115 (N)733B(633B)-XX-Y-40 1.5 38 1.5 38 2.44 62 2.50 64 1.56 40 .97 25 E (N)733B(633B)-XX-Y-48 2.0 50 2.0 50 5.10 130 w w w.thorburnflex.com (N)733B(633B)-XX-Y-64 2.5 64 2.5 64 3.26 83 2.89 73 1.84 47 1.25 32 (N)733B(633B)-XX-Y-96 3.0 76 3.0 76 6.86 174 4.0 102 4.0 102 3.56 90 2.93 74 1.88 48 1.50 38 6.0 152 6.0 152 7.16 182 3.94 100 3.20 81 2.15 55 1.88 48 7.54 192 4.43 113 3.63 92 2.18 55 2.38 60 8.03 204 5.46 139 3.82 97 2.27 58 2.88 73 9.56 243 6.56 167 4.00 102 2.34 59 3.60 91 10.66 271 10.16 258 4.52 115 2.62 67 5.60 142 16.26 413 Note: When ordering 633C, pressures are less than shown above | Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) 57

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 12 Quick Couplings Female Camlock Adapter Coupler 733D/633D Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL (Aluminum) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) - Stainless Steel Only Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) ) Thread Size: Standard NPT Optional: Use Code ZZ & Specify (BSP, BSPT, DIN, JIS) Part Number Adapter Thread (A) (B) (C) (E) Size Size O.D. Extended Outside Overall Inside (N)733D(633D)-XX-Y-08 Diameter Length Diameter A (N)733D(633D)-XX-Y-12 in mm in mm Cam Arms B (N)733D(633D)-XX-Y-16 .5 13 .5 13 in mm in mm in mm (N)733D(633D)-XX-Y-20 .75 20 .75 20 in mm C (N)733D(633D)-XX-Y-24 1.0 25 1.0 25 (N)733D(633D)-XX-Y-32 1.25 32 1.25 32 4.51 115 2.11 54 2.10 53 .67 17 E (N)733D(633D)-XX-Y-40 1.5 38 1.5 38 (N)733D(633D)-XX-Y-48 2.0 50 2.0 50 4.51 115 2.11 54 2.10 53 .88 22 A (N)733D(633D)-XX-Y-64 2.5 64 2.5 64 B (N)733D(633D)-XX-Y-96 3.0 76 3.0 76 5.10 130 2.44 62 2.50 64 .97 25 C 4.0 102 4.0 102 6.0 152 6.0 152 6.86 174 3.26 83 2.70 69 1.25 32 D 7.16 182 3.56 90 2.80 71 1.50 38 PIPE/TUBE I.D. PIPE/TUBE O.D. 7.54 192 3.94 100 3.10 79 1.88 48 A 8.03 204 4.43 113 3.40 86 2.38 60 B C 9.56 243 5.46 139 3.50 89 2.88 73 D 10.66 271 6.56 167 3.90 99 3.60 91 E F 16.26 413 10.16 258 4.40 112 5.50 140 Note: * Sizes for 733C-HD Only. When ordering 633C, pressures are less than shown above | Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) Butt Weld Camlock Adapter Coupler 733FBW/733FBW-HD/633FBW Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) - Stainless Steel Only Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) Part Number Adapter (A) (B) (C) (D) Size O.D. Extended Outside Inside Overall (N)733FBW(-HD)(633FBW)-XX-Y-08 Diameter Diameter Length (N)733FBW(-HD)(633FBW)-XX-Y-12 in mm Cam Arms (N)733FBW(-HD)(633FBW)-XX-Y-16 .5 13 (N)733FBW(-HD)(633FBW)-XX-Y-20 .75 20 in mm in mm in mm in mm (N)733FBW(-HD)(633FBW)-XX-Y-24 1.0 25 (N)733FBW(-HD)(633FBW)-XX-Y-32 1.25 32 4.21 107 1.82 46 .56 14 2.0 50 (N)733FBW(-HD)(633FBW)-XX-Y-40 1.5 38 (N)733FBW(-HD)(633FBW)-XX-Y-48 2.0 50 4.51 115 2.11 54 .78 20 2.0 50 (N)733FBW(-HD)(633FBW)-XX-Y-64 2.5 64 (N)733FBW(-HD)(633FBW)-XX-Y-96 3.0 76 5.10 130 2.44 62 .97 25 2.51 64 4.0 102 6.0 152 6.86 174 3.26 83 1.25 32 2.89 73 7.16 182 3.56 90 1.54 39 2.81 71 7.54 192 3.94 100 1.88 48 3.20 81 8.03 204 4.43 113 2.38 61 3.63 92 9.56 243 5.46 139 2.88 73 3.82 97 10.66 271 6.56 167 3.5 89 4.00 102 16.26 413 10.16 258 5.5 140 4.54 115 Note: * Sizes for 733C-HD Only. When ordering 633C, pressures are less than shown above | Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) Socket Weld Camlock Adapter Coupler 733DSW/733DSW-HD/633DSW Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) - Stainless Steel Only Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) (A) (B) (C) (D) (E) (F) Adapter Size O.D. Ext. Outside Inside Overall Socket Part Number Diameter Diameter Length Depth Socket Diameter Cam Arms in mm in mm in mm (N)733DSW(-HD)(633DSW)-XX-Y-08 in mm .56 14 2.00 50 .50 13 Pipe Tube (N)733DSW(-HD)(633DSW)-XX-Y-12 in mm in mm (N)733DSW(-HD)(633DSW)-XX-Y-16 .88 22 2.06 52 .50 13 in mm in mm (N)733DSW(-HD)(633DSW)-XX-Y-20 (N)733DSW(-HD)(633DSW)-XX-Y-24 .5 13 4.21 107 1.82 46 .97 24 2.50 64 .50 13 .88 22 .52 13 (N)733DSW(-HD)(633DSW)-XX-Y-32 (N)733DSW(-HD)(633DSW)-XX-Y-40 .75 20 4.51 115 2.11 54 1.25 32 2.70 69 .50 13 1.10 28 .77 20 (N)733DSW(-HD)(633DSW)-XX-Y-48 (N)733DSW(-HD)(633DSW)-XX-Y-64 1.0 25 5.10 130 2.44 62 1.50 38 2.81 71 .50 13 1.36 35 1.02 26 (N)733DSW(-HD)(633DSW)-XX-Y-96 1.25 32 6.86 174 3.26 83 1.88 48 3.10 79 .70 18 1.71 43 1.27 32 1.5 38 7.16 182 3.56 90 2.38 60 3.40 86 .70 18 1.95 49 1.52 39 2.0 50 7.54 192 3.94 100 2.88 73 3.50 89 .70 18 2.44 62 2.02 51 2.5 64 8.03 204 4.43 113 3.60 91 3.90 99 .70 18 2.94 75 3.02 77 3.0 76 9.56 243 5.46 139 5.50 140 4.54 115 .90 23 3.57 91 4.03 102 4.0 102 10.66 271 6.56 167 4.58 116 5.03 128 6.0 152 16.26 413 10.16 258 6.72 171 6.03 153 Note: * Sizes for 733C-HD Only. When ordering 633C, pressures are less than shown above | Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) 58 © 2022 Thorburn Flex Inc

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 13 A Proven Leader In Flexible Piping Technology Female Heavy Duty Camlock Adapter Coupler 733DSW-HD Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS) Pressure: 250 psi (2.5” ID or less), 150 psi (3”- 6” ID) - Stainless Steel Only Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) (A) (B) (C) (D) (E) (F) O.D. Ext. Outside Inside Overall Socket Part Number Adapter Size Cam Arms Diameter Diameter Length Depth Socket Diameter in mm in mm in mm in mm in mm in mm Pipe Tube A in mm in mm B C (N)733DSW-HD-XX-Y-08 .5 13 4.21 107 1.82 46 .56 14 2.00 50 .50 13 .88 22 .52 13 F (N)733DSW-HD-XX-Y-12 .75 20 4.51 115 2.11 54 .88 22 2.06 52 .50 13 1.10 28 .77 20 G (N)733DSW-HD-XX-Y-16 1.0 25 5.10 130 2.44 62 .97 24 2.50 64 .50 13 1.36 35 1.02 26 C (N)733DSW-HD-XX-Y-20 1.25 32 6.86 174 3.26 83 1.25 32 2.70 69 .50 13 1.71 43 1.27 32 B A (N)733DSW-HD-XX-Y-24 1.5 38 7.16 182 3.56 90 1.50 38 2.81 71 .50 13 1.95 49 1.52 39 D (N)733DSW-HD-XX-Y-32 2.0 50 7.54 192 3.94 100 1.88 48 3.10 79 .70 18 2.44 62 2.02 51 A E (N)733DSW-HD-XX-Y-40 2.5 64 8.03 204 4.43 113 2.38 60 3.40 86 .70 18 2.94 75 3.02 77 E (N)733DSW-HD-XX-Y-48 3.0 76 9.56 243 5.46 139 2.88 73 3.50 89 .70 18 3.57 91 4.03 102 C J (N)733DSW-HD-XX-Y-64 4.0 102 10.66 271 6.56 167 3.60 91 3.90 99 .70 18 4.58 116 5.03 128 L F (N)733DSW-HD-XX-Y-96 6.0 152 16.26 413 10.16 258 5.50 140 4.54 115 .90 23 6.72 171 6.03 153 w w w.thorburnflex.com Note: * Sizes for 733C-HD Only. When ordering 633C, pressures are less than shown above | Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) Camlock Dust Cap 733DC/633DC Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL (Aluminum) Pressure: 150 psi (2.5” ID or less), 75 psi (3”- 6” ID) - Stainless Steel Only Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) Part Number Adapter (A) (B) (C) (G) Size O.D. Ext. Outside Overall Chain Lug (N)733DC(633DC)-XX-Y-08 Cam Arms Diameter Length Extension (N)733DC(633DC)-XX-Y-12 in mm (N)733DC(633DC)-XX-Y-16 .5 13 in mm in mm in mm in mm (N)733DC(633DC)-XX-Y-20 .75 20 (N)733DC(633DC)-XX-Y-24 1.0 25 4.21 107 1.82 46 1.30 33 .5 13 (N)733DC(633DC)-XX-Y-32 1.25 32 (N)733DC(633DC)-XX-Y-40 1.5 38 4.51 115 2.11 54 1.35 34 .5 13 (N)733DC(633DC)-XX-Y-48 2.0 50 (N)733DC(633DC)-XX-Y-64 2.5 64 5.10 130 2.44 62 1.60 41 .62 16 (N)733DC(633DC)-XX-Y-96 3.0 76 4.0 102 6.86 174 3.26 83 1.89 48 .60 15 6.0 152 7.16 182 3.56 90 1.96 50 .86 22 7.54 192 3.94 100 2.25 57 .76 19 8.03 204 4.43 113 2.28 58 .90 23 9.56 243 5.46 139 2.27 58 1.03 26 10.66 271 6.56 167 2.34 59 .99 25 16.26 413 10.16 258 2.76 70 1.14 29 Note: * Sizes for 733C-HD Only. When ordering 633C, pressures are less than shown above | Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) Camlock Flanged Adapter Coupler 633-PFC 150# PN10 Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS) Pressure: 150 psi (2.5” ID or less), 75 psi (3”- 6” ID) - Stainless Steel Only Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N, EPDM (250ºF), FKM, PTFE (ER) (210ºF) Part Number Adapter/ (A) (C) (E) (F) (J) (K) (L) Flange O.D. Ext. Overall Inside Outside Bolt Hole Number Bolt Circle (N)633-PFE-XX-Y-16 Cam Arms Length Diameter. Diameter Diameter of Holes Diameter (N)633-PFE-XX-Y-24 Size in mm in mm in mm in mm in mm in mm (N)633-PFE-XX-Y-32 in mm 5.04 128 3.48 88 .69 18 4.25 108 .63 16 # 3.13 80 (N)633-PFE-XX-Y-40 1.0 1 4 (N)633-PFE-XX-Y-48 7.16 182 5.25 133 1.15 34 5.0 127 .63 16 3.88 99 (N)633-PFE-XX-Y-64 1.5 2 4 (N)633-PFE-XX-Y-96 7.54 192 5.82 148 1.63 41 6.0 152 .75 19 4.75 121 2.0 3 4 8.03 204 5.09 129 2.38 60 7.0 178 .75 19 5.5 140 2.5 4 4 9.56 243 5.82 148 2.90 74 7.5 191 .75 19 6.0 152 3.0 5 4 10.66 271 5.39 137 3.60 91 9.0 229 .75 19 7.5 191 4.0 6 8 16.76 426 7.75 197 5.60 142 11.0 279 .88 22 9.5 241 6.0 7 8 Note: * Sizes for 733C-HD Only. When ordering 633C, pressures are less than shown above | Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) 59

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 14 Quick Couplings Camlock Flanged Adapter 633-PFE 150# PN10 (Use prefix “N” only for ASME Code Applications) Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL (Aluminum) Pressure: 150 psi (2.5” ID or less), 75 psi (3”- 6” ID)) - Stainless Steel Only Part Number Adapter/ (C) (E) (F) (J) (K) (L) Flange Overall Inside Outside Bolt Hole Number Bolt Circle (N)633-PFE-XX-16 Length Diameter. Diameter Diameter of Holes Diameter (N)633-PFE-XX-24 Size in mm in mm (N)633-PFE-XX-32 in mm in mm in mm 4.25 108 .63 16 # in mm (N)633-PFE-XX-40 1.0 25 4 E (N)633-PFE-XX-48 2.32 59 .88 22 5.0 127 .63 16 3.13 80 (N)633-PFE-XX-64 1.5 38 4 L (N)633-PFE-XX-96 3.56 90 1.34 34 6.0 152 .75 19 3.88 99 F 2.0 50 4 3.50 89 1.72 44 7.0 178 .75 19 4.75 121 2.5 64 4 3.63 92 2.14 54 7.5 191 .75 19 5.5 140 3.0 76 4 CJ 3.69 94 2.78 71 9.0 229 .75 19 6.0 152 4.0 102 8 4.0 102 3.78 96 11.0 279 .88 22 7.5 191 6.0 152 8 4.5 114 5.56 141 9.5 241 Code: XX = S6 (316SS), AL (Aluminum) Camlock 633-TTC Tank & Truck Adapter Coupler Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS) Pressure: 150 psi (2.5” ID or less), 75 psi (3”- 6” ID) - Stainless Steel Only Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) A Part Number Adapter/ (A) (C) (E) (F) (J) (K) (L) E Flange O.D. Ext. Overall Inside Outside Bolt Hole Number Bolt Circle (N)633-TTC-XX-Y-32 Cam Arms Length Diameter. Diameter Diameter of Holes Diameter C (N)633-TTC-XX-Y-48 Size in mm in mm in mm in mm in mm in mm J (N)633-TTC-XX-Y-64 in mm 7.54 192 5.63 143 2.0 51 4.5 114 .44 11 # 3.75 95 (N)633-TTC-XX-Y-96 2.0 50 6 9.56 243 5.66 144 2.9 74 5.63 143 .44 11 4.88 124 3.0 76 8 10.66 271 5.68 144 3.6 91 6.63 158 .44 11 5.88 149 4.0 102 8 16.26 413 7.25 184 5.6 142 8.88 226 .44 11 8.13 207 6.0 152 12 Note: * Sizes for 733C-HD Only. When ordering 633C, pressures are less than shown above | Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) L F Camlock 633-TTE Tank & Truck Adapter (Use prefix “N” only for ASME Code Applications) Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL (Aluminum) Pressure: 150 psi (2.5” ID or less), 75 psi (3”- 6” ID)) - Stainless Steel Only Part Number Adapter/ (C) (E) (F) (J) (K) (L) Flange Overall Inside Outside Bolt Hole Number Bolt Circle (N)633-TTE-XX-32 Length Diameter. Diameter Diameter of Holes Diameter (N)633-TTE-XX-48 Size in mm in mm (N)633-TTE-XX-64 in mm in mm in mm 4.5 114 .44 11 # in mm (N)633-TTE-XX-96 2.0 50 6 E 2.93 74 1.63 41 5.63 143 .44 11 3.75 95 3.0 76 8 3.38 86 2.8 71 6.63 168 .44 11 4.88 124 4.0 102 8 3.35 85 3.78 96 8.88 226 .44 11 5.88 149 6.0 152 12 C 4.88 124 5.84 148 8.13 207 J Code: XX = S6 (316SS), AL (Aluminum) L F 60 © 2022 Thorburn Flex Inc

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 15 A Proven Leader In Flexible Piping Technology Camlock Elbow Quick Couplings Camlock 633-90CC 90º X 90º Coupler Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL = Aluminum Pressure: 75 psi (2” ID), 50 psi (3”- 6” ID) Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) Part Number Adapter / Flange Size (N)633-90CC-XX-Y-32 in mm (N)633-90CC-XX-Y-48 2.0 50 (N)633-90CC-XX-Y-64 3.0 76 (N)633-90CC-XX-Y-96 4.0 102 6.0 152 Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) Camlock 633-90EC 90º Coupler X Male Adapter Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL = Aluminum Pressure: 75 psi (2” ID), 50 psi (3”- 6” ID) Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) Part Number Adapter / Flange Size (N)633-90EC-XX-Y-32 in mm (N)633-90EC-XX-Y-48 2.0 50 (N)633-90EC-XX-Y-64 3.0 76 (N)633-90EC-XX-Y-96 4.0 102 6.0 152 Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) Camlock 633-90FPC 90º Coupler X Female NPT Material: SA351 CF8M/SA479 T316 | Code: XX = S6 (316SS), AL = Aluminum Pressure: 75 psi (2” ID), 50 psi (3”- 6” ID) Gasket Material: Buna-N (Standard) Options: EPDM, FKM & PTFE Encapsulated Rubber (ER) Temperature: Buna-N 100ºC (210ºF), EPDM, FKM, PTFE (ER) 120ºC (250ºF) Part Number Adapter/Flange Size (N)633-90FPC-XX-Y-32 in mm (N)633-90FPC-XX-Y-48 2.0 50 (N)633-90FPC-XX-Y-64 3.0 76 (N)633-90FPC-XX-Y-96 4.0 102 6.0 152 Part Number Material Codes: XX = S6 (316SS) Part Number Gasket Codes: Y = D (Nitrile), H (EPDM), I (FKM), PTFE Encapsulated Rubber Codes: JD (Nitrile), JH (EPDM), JI (FKM) w w w.thorburnflex.com 61

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 16 Quick Couplings Bottom Loading Accessories Model BLS-1 Single Outboard Swing Joint Thorburn's long radius single swing joint is specifically designed for use on hose loaders. It allows for 360º rotation on the horizontal plane. Cast aluminum con- struction makes it lightweight, yet rugged and durable. Long radius design provides for low pressure drop. The BLS-1 has the same seals used in our fabricated swivel joints. The seals are available in Viton, Buna N and PTFE. The BLS-1 is supplied with 4\" tank truck flange for use with Thorburn's TJ942-API coupler. BLS-1D Part Number BLS-1I BLS-1J BUNA N Seals Viton Seals PTFE Seals Model BLS-2 Double Outboard Swing Joint The BLS-2 double swing joint is used to make outboard connections on \"A\" frame styles of bottom loaders. It can rotate 360º in both the horizontal and vertical planes to facili- tate alignment during coupling. Cast aluminum construction is available in 2\" through 6\" sizes. Quad-Ring seals available in Viton and Buna N. Part Size Size Size Seal Seal Number Code (in) (DIN) Code BLS-2 32 2 50 BUNA N D 48 3 80 Viton I 64 4 100 PTFE J 96 6 150 Model TJ942-API Coupler Thorburn's TJ942 is the standard for the industry. A true work horse with a solid reputa- tion built on years of service. It is an API style dry-break coupler built to conform with API RP- 1004. It is available in a 4\" size only. Thorburn's TJ942 is designed with an inter- lock so that the coupler cannot be opened unless it is properly connected to an API style adapter. Once coupled, it cannot be uncoupled while the valve is open. Constructed of aluminum, this durable coupler has a 4\" tank truck flanged inlet. Thorburn's API coupler has a special seal design that allows the poppet, nose and side seals to be replaced without disassembling the coupler or removing it from the loading arm. Standard seals are Viton Orings. Other elastomers available. 62 © 2019 Thorburn Flex Inc

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 17 A Proven Leader In Flexible Piping Technology SJ Series - Low Pressure Swivel Joints Thorburn’s SJ Series Swivel Joints make it possible to use rigid metal piping for loading and unloading caustic or hazardous liquids, petroleum, dry products such as grains, cement, and other material, under pressure or vacuum, without the difficulty of manhandling heavy, cumbersome hoses. In circumstances where the use of a hose is necessary, Thorburn swivel joints, mounted at the end of the hose, will eliminate kinking and twisting. In other cases, metal frameworks fitted with swivel joints, to which hosing is attached, will guide the hose more easily, and keep uncontrolled hose from kinking or from denting or scratching tanks, trucks and other equipment. Thorburn swivel joints have a broad range of uses in the petroleum, machine tool, chemical, refining, mining, distilling, brewing, and paint industries, as well as farm irrigation and fertilizing and hundreds of others. Thorburn’s SJ Series Ball Bearing Live Swivel Thorburn swivel joints are standard in combinations of five metals and five seal materials so that you can order, from stock, the ones that are most suitable for Thorburn’s 316SS single fabricated “SJ” Series the products you handle. Two types of body construction (Cast and Fabricated) live swivel joint with 90º elbow flanges cover pressures, temperatures, corrosion resistance, weights and load-bearing capacities well within the requirements of most products handled. From the w w w.thorburnflex.com pressure/temperature graphs shown below, you can easily determine which metals and seals you need. Thorburn swivel joints are available in the following materials with pressure ratings as shown: Maximum Rated Pressure 2 inch (DIN50) SJ Swivel Joint Cast Bronze 100 psi Buna-N seals are standard with all of the above swivel joints, but each Cast Aluminum 100 psi is available with seals made of Neoprene, Teflon, EPT or Viton-A, Cast Stainless Steel 500 psi depending on the pressures and temperatures of your operation. Cast Ductile Iron 300 psi Fabricated Steel 500 psi Fabricated Stainless Steel 500 psi Contact Thorburn Flex with application details for specific Temperature / Pressure suitability 63

PG 47-64_Metallic Hose Catalog 12/2/2022 10:17 AM Page 18 Quick Couplings 1 Plane of Rotation Style 22 Style 33 Style 34 2 Planes of Rotation Style 55 Style 66 Style 78 3 Planes of Rotation Style 11 Style 13 Style 88 How to Order Thorburn Series SJ Swivel Joints Model Size Material Style 1st End 2nd End Seal SJ 48 2 11 F1 T1 B Hose size in 1 = Bronze 11 55 F1 = Flanged ANSI Class 150 B = Buna N 1/16 of an inch 2 = Aluminum V = Viton Examples: 3 = Fab. Steel 13 66 F2 = Flanged ANSI Class 300 N = Neoprene 01 = 1/16 4 = Cast Stainless E = EPDM 02 = 1/8 22 78 T1 = Female NPT T = PTFE 04 = 1/4 Steel X = Other 06 = 3/8 5 = Fab. SS304 33 88 B1 = Butt Weld 08 = 1/2 6 = Fab. SS316 (Specify) 12 = 3/4 34 SP** SW= Socket Weld 48 = 3... etc. XX = Special (Specify) Some materials may not be available for certain sizes. Contact Thorburn. * For materials other than listed, insert Code X and specify. ** SP = Special. 64 © 2022 Thorburn Flex Inc

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 1 A Proven Leader In Flexible Piping Technology Types Of Corrosion Thorburn’s flexible metal hoses are suitable for the transport of critical fluids if a sufficient resistance is ensured against all corrosive media that may occur during the lifetime of the hose. The flexibility of the hose’s corrugated elements require their wall thickness to be considerably thinner than that of all other parts of the piping system. Special attention must be paid to all possible kinds of corrosion, especially pitting corrosion, intergranular corrosion, crevice corrosion and stress corrosion cracking. This leads to the fact that the corrugated flexible element that is exposed to the corrosive fluid has to be chosen from a material with even higher corrosion resistance than those of the piping system parts it is connected to. According to EN ISO 8044, corrosion is the “physicochemical interaction between a metal and its environment that results in changes in the properties of the metal, and which may lead to significant impairment of the function of the metal, the environment, or the techni- cal system, of which these form a part. This interaction is often of an electrochemical na- ture”. Different types of corrosion may occur, depending on the material and on the corrosion conditions. Uniform Corrosion A general corrosion proceeding at almost the same rate over the whole surface. This type of corrosion includes rust which commonly is found on unalloyed steel (e. g. caused by oxidation in the presence of water). Stainless steels can only be affect by uniform corrosion under extremely unfavorable conditions, e.g. caused by liquids, such as acids and salt solutions. The loss in weight is specified in g/m2h or as the reduction in the wall thickness in mm/year. Pitting Corrosion A locally limited corrosion attack that may occur under certain conditions, called pitting corrosion on ac- count of its appearance. It is caused by the effects of chlorine, bromine and iodine ions, especially when they are present in hydrous solutions. This selective type of corrosion cannot be calculated, unlike sur- face corrosion, and can therefore only be kept under control by choosing an adequate resistant material. The resistance of stainless steels to pitting corrosion increases in line with the molybdenum content in the chemical composition of the material. Crevice Corrosion This type of corrosion is caused by the lack of oxygen in crevices which results in a localized attack on a metal surface at, or immediately adjacent to, the gap or crevice between two joining surfaces. The gap or crevice can be formed between two metals or a metal and non-metallic material. Examples of crevices are gaps and contact areas between parts, under gaskets or seals, inside cracks and seams and spaces filled with deposits. w w w.thorburnflex.com Intergranular Corrosion Intergranular corrosion is a local, selective type of corrosion which primarily affects the grain bound- aries. It is caused by deposits in the material structure, which lead to a reduction in the corrosion resist- ance in the regions close to the grain boundaries. In stainless steels this type of corrosion can advance up to the point where the grain composition is dissolved. These deposit processes are dependent on temperature (critical temperature range is between 550°C and 650°C) and time in CrNi alloys. The onset of the deposit processes differs according to the type of steel. Intergranular corrosion can be avoided by using stainless steels with low carbon content (≤ 0,03 % C) or containing elements, such as titanium or niobium. Thin wall flexible elements made of materials such as 1.4541(SA 240 Type 321) or low-carbon qualities like 1.4404 (SA 240 Type 316L) can protect against intergranular corrosion. The resistance of materials to intergranular corrosion can be verified by a standardized test (Monypenny - Strauss test ac- cording to ISO 3651-2). 65

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 2 Technical Data Dezincing A type of corrosion which occurs primarily in copper-zinc alloys with more than 20% zinc. During the cor- rosion process the copper is separated from the brass and the zinc either remains in solution or is sepa- rated in the form of basic salts above the point of corrosion. The dezincing can be either of the surface type or locally restricted, and can also be found deeper inside. Conditions which encourage this type of corrosion include thick coatings from corrosion products, lime deposits from the water or other deposits of foreign bodies on the metal surface. Water with high chloride content at elevated temperature in conjunction with low flow velocities further the occurrence of dezincing. Galvanic Corrosion This type corrosion is an electrochemical process in which one metal corrodes preferentially when it is in electrical contact with another, in the presence of an electrolyte. A similar galvanic reaction is exploited in primary cells to generate a useful electrical voltage to power portable devices. Materials which can be encountered in both the active and passive state must also be taken into account. A CrNi alloy, for exam- ple, can be activated by mechanical damage to the surface, by deposits (diffusion of oxygen made more difficult) or by corrosion products on the surface of the material. This may result in a potential difference between the active and passive surfaces of the metal, and in material erosion (corrosion) if an elec- trolyte is present. Stress corrosion cracking (SCC) This type of corrosion is observed most frequently in austenitic materials, subjected to tensile stresses and exposed to a corrosive agent. The most common corrosive agents are alkaline solutions and those containing chlorides. The form of the cracks may be either transgranular or intergranular. Whereas the transgranular form only occurs at temperatures higher than 50°C (especially in solutions containing chlo- ride), the intergranular form can be observed already at room temperature in austenitic materials in neutral solutions containing chloride. At temperatures above 100°C, SCC can already be caused by very small concentrations of chloride or lye – the latter always leads to the transgranular form. Stress corro- sion cracking takes the same forms in non-ferrous metals as in austenitic materials. Damage caused by intergranular stress corrosion cracking can occur in nickel and nickel alloys in highly concentrated alkalis at temperatures above 400°C, and in solutions or water vapour containing hydrogen sulphide at temper- atures above 250°C. A careful choice of materials based on a detailed knowledge of the existing operat- ing conditions is necessary to prevent from this type of corrosion damage. Bronze® Alloy consisting of primarily copper (Cu) and around 12% tin (Sn) alloy Monel® 400. UNS N04400 / EN 2.4360 A high nickel-copper alloy which offers superior strength and corrosion resistance with a wide range of media including seawater and chlorine. Inconel® 625. UNS N06625 / EN 2.4856 A nickel-chromium-molybdenum super alloy with an addition of niobium that acts with the molybdenum to stiffen the alloy matrix and provides ultra-high strength without the need for heat treatment. This material provides superior resistance to pitting and crevice corrosion. Thorburn’s Inconel 625 UNS NO6625 / EN 2.4856 is compliant with NACE MR0175-2009/ISO 15156-2009 Hastelloy® C-276. UNS N10276 / EN 2.4819 A nickel-chromium-molybdenum super alloy with addition of tungsten designed to have excellent corrosion resistance for severe en- vironments Especially resistant to pitting and crevice corrosion. Resistant to the formation of grain boundary precipitants in the heat affected zone making it suitable for most chemical process applications in an as-welded condition. 66 © 2022 Thorburn Flex Inc

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 3 A Proven Leader In Flexible Piping Technology Corrosion Resistance Tables Table Key Assessment Corrosion Behavior Suitability Meanings of abbreviations A Resistant Suitable adp: acid dew point B Uniform corrosion with reduction in thickness of up to bp: boiling point 1 mm/year cs: cold-saturated (@ room temp) dr: dry condition C Risk of pitting corrosion Restricted suitability hy: hydrous solution me: melted D Risk of stress corrosion cracking mo: moist condition sa: saturated (@ boiling point) E Hardly resistant, uniform corrosion with reduction in Not recommended thickness of more than 1 mm/year up to 10 mm/year F Not resistant Unsuitable (different forms of corrosion) Medium Materials Medium Materials ConcentrationStainlessNickel Based Copper Pure Stainless Nickel Based Copper Pure TemperatureSteels Alloys Based Metals Steels Alloys Based Metals Non/Low Alloy Steels Alloys Alloys 409, 410L, 430 Designation SS304, SS321 Designation Chemical Formula SS316, SS316L Chemical Formula Incoloy 825 2.4858 Inconel 600 2.4816% ºC % ºC Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Concentration Temperature Non/Low Alloy Steels 409, 410L, 430 SS304, SS321 SS316, SS316L Incoloy 825 2.4858 Inconel 600 2.4816 Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Acetanilide (Antifebrine) Allyl alcohol 100 bp AAAAA B C8H9NO CH2CHCH2OH 100 25 5 20 F A A A A B A A B AAA AAAA A Acetic acid 5 bp F F A A A B A A B AA Allyl chloride CH3COOH or C2H4O2 50 20 F F A A A B A A B BAA CH2=CHCH2Cl 50 bp F F F A A B A A B AAF 80 20 F F C C A B A A B AAA Alum 100 20 B B A A A B A A BBAAB 96 20 F F F C A B A A B AA KAI (SO4)2 B B AAB 98 bp F F F F A B A A B AA hy 10 20 B A A A B BA hy 10 <80 B B A A F F sa F F B 33 20 FBB Aluminium me 750 B B B B BB 100 >50 FFFAB Al Acetic acid vapour 100 <bp FFFAF A BF A B A FF A F Aluminium acetate hy 3 20 F A A A A A Acetic aldehyde 100 bp B B A A A A A A A A A A A A (CH3–COO)2Al(OH) hy sa FAAA B AB CH3–CHO Aluminium chloride hy 5 20 F F F C B B A A B F B A A F AlCl3 Acetic anhydride all 20 B A A A A B A A B B A A A A Aluminium fluoride hy 10 25 F F F F BB AFB (CH3–CO)2O AlF3 100 60 F AA A BAAB 100 bp F AA F A AAF Aluminium formate BAAAAAA A AAAA Al (HCOO)3 Acetic anilide <114 A A A A A A A A A A A A A A (Antifebrine) Aluminium hydroxide hy 10 20 B F A A A A A FAA AF Acetone 100 bp B A A A A A A A A A A A A A Al (OH)3 CH3COCH3 Aluminium nitrate AAAAAAA A A AAB Acetyl chloride 20 B B B B B B A A B B B AB Al(NO3)3 CH3COCI Aluminium oxide 20 B B A A A A A FAA AF Acetylene dr 20 A A A A A A A A A F F A A A Al2O3 HC=CH dr 200 B A A A A A A A A F F A A B Aluminium potassium Acetylene dichloride hy 5 20 A B sulphate C2H2CI2 dr 100 20 A C C C A A A A see alum Acetylen tetrachloride 100 20 A A A A A AA Aluminium sulphate hy 10 <bp F F F A A B A B F F F A A F CHCI2–CHCI2 100 bp A A A A A BF Al2(SO4)3 hy 15 50 F F F B BB B BBBAAF bp B F Adipic acid all 200 A A A A A A A A A AAA Ammonia dr 10 20 A A A A AA A BADAAA HOOC(CH2)4COOH NH3 hy 2 20 A A A A AA A AFDAAB Alcohol see ethyl or methyl alcohol hy 20 40 A A A A A B B B F AA hy sa bp A A A A A F B B F AA w w w.thorburnflex.com 67

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 4 Technical Data Medium Materials Medium Materials ConcentrationStainlessNickel Based Copper Pure Stainless Nickel Based Copper Pure TemperatureSteels Alloys Based Metals Steels Alloys Based Metals Non/Low Alloy Steels Alloys Alloys 409, 410L, 430 Designation SS304, SS321 Designation Chemical Formula SS316, SS316L Chemical Formula Incoloy 825 2.4858 Inconel 600 2.4816% ºC % ºC Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Concentration Temperature Non/Low Alloy Steels 409, 410L, 430 SS304, SS321 SS316, SS316L Incoloy 825 2.4858 Inconel 600 2.4816 Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Ammonia bromide hy 10 25 F C C C A AB AB Antimony me 100 650 F AA FF NH4Br Sb dr FF AA hy F F Ammonium acetate BAAA Antimony trichloride 20 A F F F F CH3–COONH4 FA SbCl3 hy 100 B F F F FFAA hy Ammonium alum hy cs 20 AA AA Aqua regia 20 F F F F NH4Al(SO4)2 3HCl+HNO3 FA Ammonium bicarbonate hy AAAABF FF FA Arsenic 65 A A (NH )HCO3 As 110 B B Ammonium bifluoride hy 10 25 F F F F A Arsenic acid 20 F AA 100 20 F F A A A H3AsO4 NH4HF2 hy 90 110 FFF F F AA A Ammonium bromide Asphalt 20 A A A A see ammonia bromide Ammonium carbonate hy 1 20 A A A A A A A B A AA Azobenzene 20 A A A A A A A A AAA 50 bp A A A A A A A B A AA C6H5–N=N–C6H5 BAAAAAA A A A NH4)2CO3 hy 1 20 B C C C A A A A Baking powder Ammonium chloride hy 10 100 B C C C A A A A ABDAAB mo NH4Cl hy 50 bp B C C C A B A B hy BBDABB A BB ABB Barium carbonate 20 F A A A A A A AAAAAB A BaCO3 Ammonium fluoride 10 25 B B A A BA NH4F A Barium chloride hy hg 70 C BaCl2 hy 5 20 CCCBBA A BF AAF hy hy 25 bp CCCBBA A B AAC 20 80 C FF FA Barium hydroxide A Ba(OH)2 Ammonium fluosilicate hy 20 40 F BAAAA solid 100 20 A A A A A B A BAAA F (NH4)2SiF6 hy all 20 A A A A A B A BAAA F hy all bp A A A A B AA Ammonium formate hy 10 20 B A A A A A A A A AAA A HCOONH4 hy 10 70 A FF AA 100 815 A A A A A B A F hy cs 20 A A A A B AAA Ammonium hydroxide 100 20 AAAAAA AAB hy sa bp A A A A BA NH4OH 50 100 A A A A A B BA Ammonium nitrate hy 5 20 F A A A A B A A FF AA Barium nitrate hy all bp AAAABA FF NH4NO3 hy 100 bp F A A A A A FF AA Ba(NO3)2 AAAAAA A Ammonium oxalate hy 10 20 B B A A BA BB AA Barium sulphate 25 A A A A A A FF COONH4)2 hy 10 bp F F B A BA B BB BA BaSO4 Ammonium perchlorate hy 10 20 CCC A NH4CIO4 Barium sulphide 25 A A A Ammonium persulphate hy 5 20 AAAABA A FF AAF BaS A (NH4)S2O8 hy 10 25 F B B B FFFA Basic aluminium acetate A see aluminium acetate Ammonium phosphate hy 5 25 A B B A A B A BB AAB NH4H2PO4 100 20 F A A A A A A A A A A A A A Ammonium rhodanide 70 A A A AA Beer 100 bp F A A A A A A A A A A A A A NH4CNS Benzaldehyde dr bp A A A B BAA C6H5–CHO Ammonium sulphate hy 1 20 A A A A A B A A BF AAC (NH4)2SO4 hy B hy 10 20 A B B A A F F BFBFAC 100 20 AAAAAA B AAAAAA 100 bp sa bp B A EF AA Benzene AAA BB B BB BAB Ammonium sulphite cs 20 BAAFF FF AA Benzenesulfonic acid hy 5 40 F A A A (NH4)2SO3 sa bp FBBFF FF AA 5 60 F F B B C6H5–SO3H hy Ammonium sulphocyanate see ammonium rhodanide Benzine 100 25 AAAAAA A AAAA B Amyl acetate all 20 BBB B BB BB Benzoic acid hy all 20 B A A A A A A A A A A A A A CH3–COOC5H11 100 bp B B AA A C6H5COOH hy all bp F A A A A A A A A A A A A F BB AB A Amyl alcohol Benzyl alcohol all 20 B B A A A A A A A A A A C5H11OH 100 20 A A A A AA A AAA A C6H5–CH2OH 100 bp B A A A Amyl chloride AB Biphenyl CH3(CH2)3CH2Cl C6H5–C6H5 100 bp B CCABA BA AAF 100 20 A A D D A A A A A A A A A A 100 400 A A D D A A A A A AAA Amyl thiol 100 160 AA A Blood 20 F A A A A A A A A A A A A Aniline 100 20 AAABA FFFA A 20 B A A A A A A A A A A A A C6H5NH2 100 180 BB B F Boiled acid Aniline chloride Borax hy cs B A A A AAAAA see aniline hydrochloride Na2B4O7 hy sa A A A A AAB Boric acid Aniline hydrochloride hy 5 20 CCC A F AAF H3BO3 hy 50 100 F A A A A B A A B AAB C6H5NH2HCl hy 5 100 CCC A A hy Boron hy 50 150 F B A A A B A A B AAB Aniline sulphite hy 10 20 AB A B hy cs 20 A A 70 150 F B B B A B A A B A B A A B Antifreeze 20 AAAAAA A A AAA 20 A A A A Glysantine 900 A 68 © 2022 Thorburn Flex Inc

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 5 A Proven Leader In Flexible Piping Technology Corrosion Resistance Tables Medium Materials Medium Materials ConcentrationStainless Nickel Based Copper Pure Stainless Nickel Based Copper Pure TemperatureSteels Alloys Based Metals Steels Alloys Based Metals Non/Low Alloy Steels Alloys Alloys 409, 410L, 430 Designation SS304, SS321 Designation SS316, SS316L Chemical Incoloy 825 2.4858 Chemical Formula Inconel 600 2.4816 Formula Inconel 625 2.4856 Hastelloy-C 2.4610% ºC % ºC C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Concentration Temperature Non/Low Alloy Steels 409, 410L, 430 SS304, SS321 SS316, SS316L Incoloy 825 2.4858 Inconel 600 2.4816 Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Bromine dr 100 20 C C C C B A A A A AF F Chloramine FFBAA AAA Br mo F ABBA F 20 F F F F A A 100 20 C C C C F A Bromine water 0.03 20 CCC A Chloric acid hy AAF 1 20 CCC HClO3 Bromoform dr 20 A A A A A A A AA F Chlorinated lime CHBr3 mo FAAAAAA AA F see calcium hypochlorite 1,3-Butadiene AAA A A Chlorine dr 100 200 A A A A AA A AAABAA CH2=CHCH=CH2 Cl2 dr dr 100 300 F F F A AA A A Butane mo C4H10 100 20 A A A A A A A A AAA B mo 100 400 F F F F AA A A B Butanol 100 120 BAA 20 F F F F A A AAB CH3–CH2–CH2–CH2OH A A 150 F F F F A A A B 100 20 A A A A A A A A AAAAAA Chlorine dioxide hy 0.5 20 F F F F B FAA A AAA CIO2 100 bp A A A A A A Butter 20 F A A A A A A Chloroacetic acid all 20 F F F F B B F F A A F CH2Cl–COOH 20 F A A A A AA FF A hy 30 80 F F F F F A FAAF Buttermilk Chlorobenzene dr AAAA A C6H5Cl mo Butylacetate 20 B A A A A A A BAAAAA 100 20 A C C C A A A A A A A A A B CH3COOC4H9 bp B A A A A A A AA AAA Chloroethane Butyric acid A C2H5Cl - see ethyl chloride CH3–CH2–CH2–COOH hy cs 20 F A A A B F A A BA hy sa bp F F F A B F A BB Chloroform dr BBBBAAA A AAAA A Cadmium me CHCl3 mo F Cd me FF FCCCAAA A A Calcium hy Chloronaphthaline AAAAAAA A AAAAAA Ca hy C10H7Cl hy 850 F FF Calcium bisulphite hy Chlorophenol BAAA A CaSO3 C6H4(OH)Cl cs 20 F F A A BBA Calcium carbonate sa bp F F F A A A Chlorosulphon acid hy 100 20 A A A A A A A A A AAA CaCO3 HOSO2Cl mo 20 F F F B B B B FAF 20 B A A A A A A AAAAAA Calcium chlorate 1 20 F F A A B AB Ca(CIO3)2 Chrome alum hy cs F F B A A A AF KCr(SO4)2 sa F F F F A B AF Calcium chloride 10 20 CCCBBB B BF A CaCl2 10 100 F FCBBB B BF A Chromic acid hy 5 20 F F A A B F A A F F F A A B Cr2O3 hy 5 100 F C C C A AAF (H2CrO4) hy 5 90 F F F F B FFFAA 10 20 F C C C A A A A hy cs F C C C A A A A AABAAF hy 10 20 F A A A B F A FFFAAB sa F F C C A A A A hy BA AAF hy 10 65 F F F F A FFFAA A FA CAF 10 bp F F F F B F A FFFAAF Calcium hydroxide AAAABBA BAAAAF 50 bp F F F F F F F FFFAAF Ca(OH)2 60 20 F F F F B F FFFAAF Calcium hypochlorite Ca(OCI)2 hy 2 20 F F F C C F A A FF AAF Chromic-acid anhydride hy B AF see chromium oxide Calcium nitrate cs F F F A Ca(NO3)2 mo A Chromium oxide AAAAAAA A AAAAAA 20 F A A A A A A A A AA CrO3 Calcium oxalate mo all 100 F A A A A A A A AA (COO)2Ca mo A Chromium sulphate cs F A A A A A A A hy 20 B A A A A A A AAAAAF Cr2(SO4)3 sa F A B B B A A A Calcium oxide hy CaO 20 A A A A A A A A AAAA F Cider FAAAAAA A A AAB hy FAAAAAA A A AAB Calcium sulphate CaSO4 20 B A A A A A A AAAAAB Citric acid hy all <80 F F A A A A bp B A A A A A A AAAAAB C6 H8O7 hy all bp F F F A A A Calcium sulphite CaSO3 cs A A A A A AAB Combustion gases ≤400 A A A A A sa A A A A B AAB free from S or H2SO4 and Cl >adp A Carbolic acid B with S or H2SO4 and Cl ≤400 A A A A C6H5(OH) 20 A A A A A B A A BA AAA Copper (II) acetate hy 20 F A A A A B A A B F F A A F bp F F F A A AAF CU2 (CH3COO)4 hy 90 bp F F F A A A AAF bp F A A A FA F A Copper (II) chloride hy Carbon dioxide dr 100 <540 A B A A A A A AA CuCl2 hy 1 20 F F C C A F B FF AAF CO2 dr A cs F F F F F F AF AAF mo A Copper (II) nitrate hy mo 100 1000 F F A Cu(NO3)2 hy 1 20 AAAAF A FF AAF hy 50 bp BF AF 20 25 B B A A A A A AAB AF cs AAA F B FF AAF 100 25 F B A A A B A BA AAF AAAAF Carbo monoxide 100 20 A A A A AA A AAA Copper (II) sulphate hy cs F A A A A F A FF AAF CO 100 <540 F A A A F B AAB CuSO4 hy sa F B A A A F AF AAF Caustic-soda solution Cresol all 20 F B A A AA A AA see sodium hydroxide C6H4(CH3)OH all bp F B B A AF AA B A Chilean nitrate Crotonaldehyde see sodium nitrate CH3–CH=CH–CHO 20 F AAAAA A AA A bp BAAAA A AA A Cyclohexane Chloral 20 A AF (CH2)6 AAAAAAA A AAAAAA CCl3–CHO w w w.thorburnflex.com 69

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 6 Technical Data Medium Materials Medium Materials ConcentrationStainlessNickel BasedCopper Pure Stainless Nickel Based Copper Pure TemperatureSteels Alloys Based Metals Steels Alloys Based Metals Non/Low Alloy Steels Alloys Alloys 409, 410L, 430 Designation SS304, SS321 Designation SS316, SS316L Chemical Incoloy 825 2.4858 Chemical Formula Inconel 600 2.4816 Formula Inconel 625 2.4856 Hastelloy-C 2.4610% ºC % ºC C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Concentration Temperature Non/Low Alloy Steels 409, 410L, 430 SS304, SS321 SS316, SS316L Incoloy 825 2.4858 Inconel 600 2.4816 Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Diammonium phosphate Fuels 20 A A A A A A A A A A see ammonium phosphate Benzine bp A A A A A A A A A A 20 A A A A A A A A A A Dibromethane B AA F Benzene bp A A A A A A A A A A CH2Br–CH2Br 20 A A A A A A A A A A AA Benzine-alcohol-mixture 20 A A A A A A A A A A Dichlorflourmethane dr bp A A A A A A A AA Diesel oil CF2Cl2 dr 20 A A A A A A A AA mo 20 A A A A A A A Furfural AAA 100 25 B B B B A AA AA Dichloroethane dr 100 20 A C C C B A A A 100 bp F B B B CH2Cl–CH2Cl mo A AA 100 20 CCC 1 20 B A A A A A Dichloroethylene Gallic acid hy 100 20 F A A A A see acethylene dichloride C6H2(OH)3COOH 100 bp F A A A A F Gelatine Diethyl ether AAAAAAA B AAAAAA 20 A A A A A AA (C2H5)2O 20 A A A A A A A A A A A A A A 80 B A A A A AAAA A Ethane CH3–CH3 Glacial acetic acid CH3CO2H see acetic acid Ether see diethyl ether Glass me 1200 B BB Ethereal oils 20 B A A A A A A B A A A A A A Ethyl alcohol all 20 A A A A A A A A A A A A A A Glauber salt C2H5OH see sodium sulphate Ethylbenzene all bp B A A A A A A AAAAAA Gluconic acid 100 20 B A A A A A A A A A A A A C6H5–C2H5 CH2OH(CHOH)4–COOH A BAAAAAA A AAAAAA Ethyl chloride Glucose hy 20 A A A AAA C2H5Cl C6H12O6 ADDDAAA B AAB AB Ethylene Glutamic acid 20 B C C A A B A A B CH2=CH2 HOOC–CH2–CH2–CHNH2 20 A A A A A –COOH 80 F C C A B B Ethylene dibromide CH2Br-CH2Br B AA F Glycerine 100 20 A A A A A A A A A A A A A A CH2OH–CHOH–CH2OH Ethylene dichloride 100 bp B B A A AA A A AA CH2CLCH2CL dr 100 20 A C C C B A A AAA Glycol Ethylene glycol mo A see ethylene glycol CH2OH–CH2OH 100 20 CCC Exhaust gases 100 20 A A A A A B A A B A A A A A Glycolic acid 20 F B B B A AB see combustion gases CH2OH–COOH bp F F F F A AB Glysantine AF see antifreeze Hexachloroethane 20 AAAAA A A CCl3–CCl3 Fats A A A A A A A A A A A A A A 20 60 B Hexamethylene - 80 60 F Fatty acid 100 20 A A A A A A A A B B A A A A tetramine hy AA A C17H33COOH (CH2)6N4 hy AA A 100 60 F A A A A A A A A BAAB 100 150 F F A A A A A A B BAAF Household ammonia see ammonium hydroxide 100 180 F F F A A A A A B FAAF 100 300 F F F A A A A A FAAF Fixing salt Hydrazene 20 A A F F F B see sodium thiosulphate H2N–NH2 Flue gases Hydrazine sulphate hy 10 bp F FF see combustion gases (NH2)2H2SO4 Fluorine mo Hydrobromic acid 20 F F F F F F F F F F F F A F dr aqueous solution of hydrogen dr 20 F F F F A AFBF F bromide (HBr) dr 100 20 A A A A F 100 200 A A C C A AAAA F 100 500 F F AA A Hydrochloric acid HCl A 0.2 20 F F C C A AA 0.5 20 F F F C 0.5 bp F F F F A AA 1 20 F F F C F F Fluorosilicic acid 100 20 F F C C B BB F 2 65 F F F F F BA F 5 20 F F F F F F H2(SiF6) 25 20 F F F F B B B B F BF F 15 20 F F F F F F A BFFAAF F 32 20 F F F F 70 20 F F F F B 32 bp F F F F A AAF vapour FFFF B E A BFB F A FF FAF Formaldehyde hy 10 20 F A A A A A A A A A A A B A FAF CH2O hy 40 20 F A A A A A A A A A A A B hy all bp F A A A A A F F FAF Formic acid HCOOH 10 20 F F B A A B A A B AAA Hydrochloric-acid gas 10 20 F F F F B B A A B FFFF 10 bp F F F B A B A A B AF see hydrogen chloride FFF 80 bp F F F F A B A A F FF 80 20 B BBB B B FFF 85 65 F F F F A B A A E FF Hydrofluoric acid FFF HF 80 bp BB 90 30 BB A 70 © 2022 Thorburn Flex Inc

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 7 A Proven Leader In Flexible Piping Technology Corrosion Resistance Tables Medium Materials Medium Materials ConcentrationStainless Nickel Based Copper Pure Stainless Nickel Based Copper Pure TemperatureSteels Alloys Based Metals Steels Alloys Based Metals Non/Low Alloy Steels Alloys Alloys 409, 410L, 430 Designation SS304, SS321 Designation SS316, SS316L Chemical Incoloy 825 2.4858 Chemical Formula Inconel 600 2.4816 Formula Inconel 625 2.4856 % ºC Hastelloy-C 2.4610 % ºC C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Concentration Temperature Non/Low Alloy Steels 409, 410L, 430 SS304, SS321 SS316, SS316L Incoloy 825 2.4858 Inconel 600 2.4816 Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Hydrogen <300 A AA A A Lead nitrate hy 100 B A A A A A A A A AAA H >300 F AA A A Pb(NO3)2 Hydrogen bromide me HBr dr 100 20 A A A A A Lime hy mo 30 20 F F F F CaO see calcium oxide Hydrogen chloride HCl dr 20 A F B B A A A A FB Lithium 300 A A A A A A A A F F F A F B Li Hydrogen cyanide dr 100 A F F F A A A A F HCN F Lithium chloride dr 250 B F F F A A A A LiCl cs F F F C A A A A B A Hydrogen fluoride HF dr 500 F F F F B A Hydrogen peroxide H2O2 dr 20 F A A A A B A A B F F A A A Lithium hydroxide hy all 20 B A A A A A A A A hy 20 20 F B A A A B A A B F F A A A LiOH Hydrogen sulphide hy cs 20 F B A A A A A A F F F A A A H2S Magnesium me 650 B F F F F F F F F A A F Mg Hydroiodic acid 5 20 FFFFAA A A FFF FFF Hypochlorous acid 100 500 F F F F F F AF Magnesium carbonate hy 20 A A A A A A A A A A AAB HOCl bp A A A A A A A A A A AAB all 20 F F A A A B A A B F F B F A MgCO3 hy Indol Magnesium chloride hy 5 20 F F C C A A A A A F AAF Ink MgCl2 hy AAF see gallic acid dr 100 20 B D A A A B A BAAAAA hy 5 bp F F F F A A A A A F AAF Iodine J2 dr 100 100 F D A A A 50 bp F F F F A Iodoform dr 100 200 F F A A A Magnesium hydroxide hy cs A AAAAA A AAAAAF CHJ3 sa A AAAAA A AAAAAF Iron (II) chloride mo 20 F F A A AA A AFFA A Mg(OH)2 hy FeCl2 cs Iron (II) sulphate dr 20 A A A A Magnesium nitrate AAAAFF F AFAAAB FeSO4 mo 20 F F F F Mg(NO3)2 Iron (III) chloride 20 F F F F AF Magnesium oxide FeCl3 see magnesium hydroxide Iron (III) nitrate 20 A A A A A A A A A A A A A Magnesium sulphate hy 0.1 20 A B A A A A A F Fe(NO3)3 MgSO4 hy 5 20 F B A A A B A A B A A A A A Iron (II) sulphate hy 50 bp F B A A B A A A FeSO4 Iron (III) sulphate Maleic acid hy 5 20 F A A A A B A A B A A Fe(SO4)3 A Isatine dr 100 20 A C C C A AFFF A HOOC–HC=CH–COOH hy 50 100 F A A A B A C8H5NO2 mo 20 F F F F F Kalinite mo bp F F F F BF A F Maleic anhydride 100 285 A see alum Ketene BF A R2C=C=O Lactic acid dr 60 A A A A Mallic acid hy 20 F F A A A B A A B F AAA C3H6O3 mo 20 F F C C hy Malonic acid 50 100 F F A A A B A A B F F A A A Lactose CH2(COOH)2 C12H22O11 hy 10 20 A CC B BBAAF 20 B B B B B B B BB Lead hy cs FF B Pb A FF AAF 50 B B B B B F Lead acetate (CH3–COO)2Pb hy all bp A A A A AA AF 100 FF FF Lead acide dr 100 20 A C C C B F A FFFAAB Manganese(II) chloride hy 5 100 F C C C B B B BF AA Pb(N3)2 A FFFAAB MnCl2 hy 50 20 B F C C B B B BF AA FA hy 5 25 F F F F F F B FFAA Manganese(II) sulphate cs A A A A A A A A A MnSO4 hy 10 65 F B B B hy 50 20 F F F F F hy 10 20 F A A A A A Maritime climate mo EC BC BC A A A A A A A A A A A AA hy all bp F A A A F F F F F Methanol see methyl alcohol hy all bp A A A A AA Menthol hy <30 20 F A A A A F A BFFAAF C10H19OH AAAAAA A AAAAAA hy all bp F B A A A AAF Mercury dr 100 20 A C C C AA A FFFA B Hg all <500 B B B A 20 B A A A A A A A A A A A A AA A FFFAAF Methane CH4 200 A A A A A A A A A A A A 600 A Methyl acetate CH3COOCH3 60 20 A AA A AA 20 A A A A A A A AAA Methyl alcohol 60 bp A AA A AA bp A A A A A A A AAA CH3OH <100 20 AAAAAA A A AB Methylamine AAAB hy 1 20 F F A A A AA ABAAA CH3–NH2 100 bp B F B B AA A A hy all 20 F F B A A A A B Methyl chloride hy 25 20 B A A A A A A FFFA A CH3Cl hy 10 bp F F F F A F A FB AAB Methyldehyde hy all bp F F F B A A A B see formaldehyde hy 20 A A A A A A A A A A A A A dr 20 A A A A AA A A AA A mo 20 F C C C AA AF mo bp C C C AA AF me 388 F B B B A F AA 900 F F F F A me F A A A AA F F Methylene dichloride dr 20 A C C C AAA CH2Cl2 mo <20 <30 AAA B mo 20 C C C A B B B A A B bp C C C B B B B B A B w w w.thorburnflex.com 71

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 8 Technical Data Medium Materials Medium Materials ConcentrationStainlessNickel Based Copper Pure Stainless Nickel Based Copper Pure TemperatureSteels Alloys Based Metals Steels Alloys Based Metals Non/Low Alloy Steels Alloys Alloys 409, 410L, 430 Designation SS304, SS321 Designation SS316, SS316L Chemical Incoloy 825 2.4858 Chemical Formula Inconel 600 2.4816 Formula Inconel 625 2.4856 Hastelloy-C 2.4610% ºC % ºC C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Concentration Temperature Non/Low Alloy Steels 409, 410L, 430 SS304, SS321 SS316, SS316L Incoloy 825 2.4858 Inconel 600 2.4816 Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Milk of lime 20 A B A A A Oleic acid Ca(OH)2 bp A B A A A see fatty acid Oleum Milk sugar F FA B see sulphur trioxide see lactose AF Oxalic acid Mixed acids H2SO4 H2O C2H2O4 hy all 20 F F A A B B A A B AAA HNO3 % % FAF % 10 – Oxygen hy 10 bp F F F F A B A A B B 90 50 – O 50 50 – hy sa FFFFBBB B B 50 50 – 50 60 2 20 A AA 500 B A A A AF A 38 75 – 25 75 – 20 A A 25 75 – 25 20 65 90 F B B 15 20 65 15 70 20 120 F F F Ozone AAAAAA A A AA 10 70 20 10 30 65 50 F A A 05 30 65 05 30 65 50 F A A Paraffin 20 A A A A A A 05 15 80 CnH2n+2 120 A A A A AAA A 05 90 F B B me Perchlorethane 157 F F F see hexachlorethane 20 F F A A 80 F A A 50 F A A Perchloric acid (60%) 10 20 F F F F AF HClO4 100 20 F F F F A 90 F A A 20 F A A Perchlorethylene 20 A A A A AA BF 90 F F A A C2Cl4 bp A B B B bp F F B B mo F C C C 134 F F B B Molasses AAAAAA A A A AA Perhydrol see hydrogen peroxide Petroleum 20 A A A A AA A AAAA A bp A A A A A Monochloroacetic acid AA A A AA see chloroacetic acid 100 20 A A A A AB Petrol Naphthaline 100 390 A A A A A see benzine (benzene) C10H8 Phenol Naphthaline chloride 100 45 A see carbolic acid 100 200 A Phloroglucinol 20 A A A A A A A A AAA Naphthaline sulphonic acid 100 20 A AA A C6H3(OH)3 dr 20 A A A A A A A A AAA C10H7SO3H A 100 bp FFF Phosgene COCl2 Naphthenic acid hy 100 20 CCCAAA A Nickel (II) chloride hy 10 20 F C C C A B A A BBBA Phosphoric acid hy 1 20 F A A A A A A A B F AAF NiCl2 hy A A H3PO4 10 bp F F C C B hy 10 20 F F A A A A A Nickel (II) nitrate Ni(NO3)2 tot 70 A hy 30 bp F F B B B BBBFAF Nickel (II) sulphate hy 60 bp F F F F B F A NiSO4 hy 10 25 F A A A A A A A F F AAF hy 80 20 F F B A AA A AFA Nitric acid AAF HNO3 hy <100 25 F A A A A F BF hy 80 bp F F F F A F BFA hy 20 F A A A A B B B B A Phosphorous dr 20 A A A A A P hy bp F A A A A BB 1 20 F A A A A ABFAA Phosphorous dr 20 A AA A A pentachlorite 1 bp F A A A BF AA PCl5 200 A B A AA 5 20 F A A A A F A FF AAF bp A A A AA AA 5 bp F B A A B AA 10 bp F B A A BF AA Phtalic acid and phtalic 20 A AA AA A A anhydride 15 bp F B A A F AA C6H4(COOH)2 200 A F A AA 25 bp F F A A F BA dr bp A A A AA 50 bp F F F B A F F FF BAF 65 20 F A A A A A AAB Picric acid hy 3 20 F A A A A B C6H2(OH)(NO2)3 A FFFA A 65 bp F F F F A F F FF AAF hy cs FAAAFF F A 99 bp F F F F A F F FF AF me 150 F A A A 20 290 F F F F F FA Plaster see calcium sulphate 40 200 F F F F F FA Nitrobenzene hy A A A A A A A B A A A A A Potash lye C6Hx(NO2)y hy 20 B A A A A A A A A A A A see potassium hydroxide hy 20 A A A A A Nitrobenzoic acid A Potassium me 604 A A A B AA C6H4(NO2)COOH K 800 A A B ABA Nitroglycerine Potassium acetate me 100 292 B AA AA A A A C3H5(ONO2)3 CH3–COOK BA hy 20 B A A A Nitrogen A N 100 20 A AA AA A AAAA Potassium bisulphate hy 5 20 F F E A F 100 900 B KHSO4 hy 5 90 F F F F Nitrous acid AA HNO2 Potassium bitartrate hy cs FFA AA See nitric acid KC4H5O6 hy sa FFF Potassium bromide hy 5 30 F C C C A B A A B A AAF KBr 72 © 2022 Thorburn Flex Inc

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 9 A Proven Leader In Flexible Piping Technology Corrosion Resistance Tables Medium Materials Medium Materials ConcentrationStainlessNickel Based Copper Pure Stainless Nickel Based Copper Pure TemperatureSteels Alloys Based Metals Steels Alloys Based Metals Non/Low Alloy Steels Alloys Alloys 409, 410L, 430 Designation SS304, SS321 Designation SS316, SS316L Chemical Incoloy 825 2.4858 Chemical Formula Inconel 600 2.4816 Formula Inconel 625 2.4856 % ºC Hastelloy-C 2.4610 % ºC C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Concentration Temperature Non/Low Alloy Steels 409, 410L, 430 SS304, SS321 SS316, SS316L Incoloy 825 2.4858 Inconel 600 2.4816 Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Potassium carbonate hy 50 20 B A A A A A A A A B B A A F Salpetre K2CO3 hy see potassium nitrate 50 bp F F A A A A A A A AAF Potassium chlorate hy KCIO3 hy 5 20 F A A A A B A BFB Seawater at flow velocity v (m/s) sa F A A A A F A A F F 0 < v ≤ 1.5 1.5 < v < 4.5 Potassium chloride hy 10 20 F F C C A A A A A A B 20 B C C C C C A A C B KCl B 20 B A A A C A A A A A hy 10 <bp F F C C BF A hy 30 bp F F C C BA BA Siliceous flux acid see fluorsilicic acid hy cs FCCC B Silver nitrate hy sa F FCC B AgNO3 Potassium chromate hy 10 20 A AAAAA A BAAA A hy 10 20 F A A A A B B B F F F A A F K2CrO4 hy 10 bp B A AA A hy 10 bp F A A A A Potassium cyanide hy KCN hy hy 20 60 F A A A A 10 20 F A A A A F A BF AF hy 40 20 F A A A B A 10 bp F A A A FF F me 100 250 F F A A Potassium hy 10 40 F A A A B B B B B A AAA Soap hy 1 20 A A A A AA AA A A dichromate hy 1 75 A A A A K2Cr2O7 hy 25 40 F F A A B B B B B F B A A A hy 10 20 A A A A AA A hy 25 bp F F A A B FBAAA AA Potassium hy 1 20 A A A B B A A A A AAA ferricyanide AAAA K3(Fe(CN)6) hy cs AAA A AA Sodium (O2  0.005 %) 200 A A A A AB AAA Na me 600 F B A A A hy sa FACA A A AAA Potassium hy 1 20 AAABBA A AA AAA Sodium acetate hy 10 25 A A A A AA A A AA ferrocyanide hy 25 20 CH3–COONa A K4(Fe(CN)6) hy 25 bp AAAAAA A AAAAAA hy sa FAAA A B AF BBAAAA A AA AAA Sodium aluminate 100 20 A A A A Na3AlO3 hy 10 25 A A A A AA Potassium fluoride hy cs AAAA A F KF hy sa BAAA A Sodium arsenate hy cs AAAA Potassium hydroxide hy 10 20 ADDBBB B AA AFF Na2HAsO4 AFF hy 20 bp ADDBBB B AF FFF AFF hy 30 bp F DDB F BA FFF Sodium bicarbonate 100 20 AAA AA hy 50 20 D A D D B B B A A F FF NaHCO3 hy 10 20 A A A A A B B B B A B A A FFF hy 50 bp D F F F B F B AF hy cs AAAABA A BA AAB hy sa DFDD BA hy sa AAA B A me 100 360 F F F F F F Potassium hy all 20 CCCF F A FF A F Sodium bisulphate hy all 20 F F F A A B B B B F B A A A hypochloride KCIO hy all bp CCCF F B FF A F NaHSO4 hy all bp F F F B A B B B B F B A A B Sodium bisulphite hy 10 20 F F A A B AA A NaHSO3 hy 50 20 F A A A BA AA Potassium iodide hy 20 A C C C A B B A F A AAF hy 50 bp F F F A KJ hy bp A F C C A B B A F A AAF A A Potassium nitrate hy all 20 AAAABB B B AA Sodium borate hy cs AAAA A A BA AAB KNO3 hy all bp AB NaBo3 4 H2O me FFFF F AAA B AF Sodium bromide B AF Potassium nitrite all bp B A A A B A A A A B B NaBr hy all 20 F F F C B KNO2 hy all bp F F F C Potassium permanganate hy 10 20 A A A A A BA AAA Sodium carbonate hy B 20 F A A A A B A A A A AAE AAA Na2CO3 AAF KMnO4 hy all bp F B B B A B B B B A hy all bp AAAAAA A Potassium persulphate hy 10 50 F F A A A AF FA F hy 400 F F F F K2S2O8 me 900 F F F F A Potassium silicate 20 B A A A A A A A A A A A F Sodium chloride hy 0.5 20 CCCABA A AA AA K2SiO3 NaCl AA hy 2 20 CCCABA A AA AAE Potassium sulphate hy 10 25 F A A A A A A A A A A A A A AAF K2SO4 hy all bp A A A A A A A A A A A A A B hy cs FCCCABA A AA hy sa FFFCABA B AA Protein solutions 20 B A A A A A A A A A AAA Sodium chlorite dr 100 20 F C C A A A NaClO2 A A Pyridine dr all 20 AAA A A hy 5 20 FC A C5H5N all bp AAA A A A AA A A hy 5 bp FF B Pyrogallol AA A B C6H3(OH)3 all 20 F A A A A AA A hy 10 80 F FC all bp F A A A B Sodium chromate hy all bp A A A A A A A A A A A A Na2CrO4 Quinine bisulphate dr 20 F F F A A A A BA AA me F Sodium cyanide hy F Quinine sulphate dr 20 F A A A A A A BAAAA NaCN 600 B FFF A cs B A A A FBFA A Quinol F AAAAA B A Sodium fluoride hy 10 20 A AA F HO–C6H4–OH NaF hy 10 bp A AA AAA hy cs DD Salicylic acid dr 100 20 B A A A A B A A B A A HOC6H4COOH AB mo 100 20 F AA BA Sodium hydrogensulphate see sodium bisulphate hy cs F AAABA A AA Sodium hydrogensulphite Salmiac see sodium bisulphite see ammonium chloride w w w.thorburnflex.com 73

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 10 Technical Data Medium Materials Medium Materials ConcentrationStainlessNickel Based Copper Pure Stainless Nickel Based Copper Pure TemperatureSteels Alloys Based Metals Steels Alloys Based Metals Non/Low Alloy Steels Alloys Alloys 409, 410L, 430 Designation SS304, SS321 Designation SS316, SS316L Chemical Incoloy 825 2.4858 Chemical Formula Inconel 600 2.4816 Formula Inconel 625 2.4856 % ºC Hastelloy-C 2.4610 % ºC C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Concentration Temperature Non/Low Alloy Steels 409, 410L, 430 SS304, SS321 SS316, SS316L Incoloy 825 2.4858 Inconel 600 2.4816 Inconel 625 2.4856 Hastelloy-C 2.4610 C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Sodium hydroxide solid 100 all A A A A AA A A Stearic acid 100 20 B A A A AA A ABBA A NaOH hy <10 <60 A A A A AA A CH3(CH2)16COOH hy <10 <bp F F A A AA A 100 95 F A A A A B A BB AAF hy <20 <60 A A A A AA A hy <20 <bp F F A A AA A 100 180 B AF hy <40 <60 A A A A AA A hy <40 <100 F F A A AA A Succinic acid bp B A A A A A A A A A A hy <40 <100 F F F F AA A HOOC–CH2–CH2–COOH hy <50 <<60 A A A A AA A hy <50 <100 F F A A AA A Sulphur dr 100 60 A A A A A A hy <50 <100 F F F F AA A S me 130 B A A A A FFFA hy <60 <90 F F A A AA A me 240 F A A A AA hy <60 <140 F F F F AA A me 20 F E B A A FFFA hy <60 <140 F F F F FA F hy <60 <140 F F F F FA F Sulphur dioxide dr 100 20 A A A A A A A A B A A A A A SO2 dr 100 60 F F B B A A A dr 100 400 F F F A B A A Sodium hypochlorite hy 5 20 F F F C A F A FF AF dr 100 800 F F F F F A A NaOCl hy B AF mo 100 20 F F F A A A A A A F B A A F mo 100 60 F F F A A A F Sodium hyposulphite A mo 100 70 F F F F A A F Na2S2O4 A 10 50 F CC A Sulphuric acid 0.05 20 F B A A AAB Sodium iodide B H2SO4 NaJ all 20 FAAABB B BF 0.05 bp F B B A BAF all bp FAAABB B BF 0.1 20 F F A A AAB 0.2 bp F F F A BAF CCCAAA A 0.8 bp F F F F BAF 1 20 F F B A BA A BF AAB Sodium nitrate hy 5 20 F A A A A A A A B A AAA 3 bp F F F F B F BAF NaNO3 hy hy 10 20 B A A A A A A B B A B A A A 5 bp F F F F B F F BF FAF hy hy <10 bp F A A A A A A F 7.5 20 F F B A BAB me 30 20 B A A A A A B B B A AAA 10 bp F F F F B F F FF FAF 30 bp B A A A A A FB AAA 25 20 F F F F A F FAB 320 F A A A A A A A 25 bp F F F F F F FAF 40 20 F F F F A BFFBAB Sodium nitrite hy 20 A A B A A A A A AAB 40 bp F F F F F F FAF NaNO2 hy 50 20 F F F F B F A FF FAF Sodium perborate hy NaBO2 10 20 F A A A B B 50 bp F F F F F F F FF F F hy 10 bp F A A A B B Sodium perchlorate hy 60 20 F F F F AB FFAF NaClO4 B A hy B A 80 20 F F B B A BFBFAF Sodium peroxide hy Na2O2 me 10 20 F F A A B 90 20 F F B A A F A F 10 bp F AAB 96 20 B B B A A FF FAF 10 20 F B A A B B B B A F FFF Sulphurous acid hy 1 20 F F A A B AF AB FFF H2SO3 AF BAF 10 bp F F A A B B B B A F hy cs FFAA B Sulphur trioxide AF 460 FB FF SO3 hy sa FFBA Sodium phosphate hy 10 20 AAAAAA A AABAAA Tannic acid hy 100 20 EF A FEA F Na2HPO4 hy 10 bp C76H52O46 dr 100 20 A FA hy cs AAAAAA A A AAB Sodium salicylate hy C6H4(OH)COONa AAAAAA A A AAA hy 5 20 F A A A A AAAA A hy hy 25 100 F F A A A Sodium silicofluoride all 20 AAAA A AA hy 50 bp F F A A Na2(SiF6) hy AA hy Sodium sulphate hy cs F F F F A A B B A B Tar 20 A A A A AAA B Na2SO4 10 20 F A A A A A A A A A A A A A Tartaric acid hy 10 20 B A A A A B A A B A A A A F cs 20 F B A A A B A A B A AAA hy 10 bp F B A A A F B FA BAF sa F F A A A A A A A AAB hy 25 20 F B A A A A AA AAF Sodium sulphide hy 1 20 F A A A A A B A hy 25 bp F F B A A B BA BAF Na2S hy AAB hy cs F F F A A B A A F AF hy 50 20 F F A A A A AAF Sodium sulphite Na2SO3 hy sa F F F B hy 50 bp F F F F B A FAF hy Sodium superoxide 10 20 F B A A ABBA A Tetrachloroethane see sodium peroxide 30 bp F F A A A F see acetylen tetrachloride Sodium tetraborate Tetrachloroethylene pure 100 20 A A A A A AAA A see borax pure 100 bp AA A AAA A mo 20 F F C C A BBA F mo bp F F C C A BBA F 1 20 B A A A A AA Tin chloride 5 20 F F F F F F A BF AAF 10 20 F A A A BF AA SnCl2 ; SnCl4 sa F F F F Sodium thiosulphate hy 25 bp F C C C AB AAAA A Na2S2O3 hy cs F F A A AAA Toluene 100 20 A A A A AAAA A hy C6H5-CH3 100 bp A A A A B Spirit of terpentine 100 20 F A A A AAA A Town gas AAAAAAA A BBA 100 bp F A A A AAA A Spirits 20 B A A A A A A A A Trichloroacetaldehyde Steam bp F A A A A A A A A see chloral 02 < 1 ppm; Cl < 10 ppm 02 > 1 ppm; Cl < 10 ppm <560 B B B A A A Trichloroethylene pure 100 20 A A A A A AAA A 02 > 15 ppm; Cl < 3 ppm <315 D D D D A A CHCl=CCl2 >450 D D D D A A pure 100 bp AA A AAA A mo 20 F F C C A BBA F mo bp F F C C A BBA F 74 © 2022 Thorburn Flex Inc

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 11 A Proven Leader In Flexible Piping Technology Corrosion Resistance Tables Medium Materials Material Selection At A Glance ConcentrationStainlessNickel Based Copper Pure Thorburn’s metal hose assemblies are typically made from TemperatureSteels Alloys Based Metals austenitic stainless steel Non/Low Alloy Steels Alloys 409, 410L, 430 304 Designation SS304, SS321 18Cr-8Ni SS316, SS316L Chemical Incoloy 825 2.4858 Formula Inconel 600 2.4816 Inconel 625 2.4856 Hastelloy-C 2.4610% ºC C276 2.4819 Monel 2.4360 Alloy CuNi 70/30 Bronze Titanium Tantalum Aluminum Trichloromethane AAAAAAA A Lower Carbon (C) Add Mo for Add Titanium (Ti) see chloroform to reduce pitting resistance to reduce sensitization Tricresylphosphate sensitization Trinitrophenol 100 20 A A A A AA AAA see picric acid BB AAF 100 150 F BA F 304L 316 321 Trichloroacetic acid see chloroacetic acid hy 20 F A A A A B A A A A A F hy 100 F A A A A B A A A A A F Urea CO(NH2)2 dr 20 A A A A A AA <400 A A A A AA Uric acid C5H4O4N3 20 F A A A A F AF Lower Carbon (C) bp F A A A A F AF to reduce Vinyl chloride CH2=CHCl sensitization Water vapour see steam Wine Yeast 20 B A A A A A A A A A A A A A Yellow potassium prussiate see potassium ferricyanide Zinc chloride hy 5 20 F C C C A B A A B F AAF ZnCl2 hy hy 5 bp F F F F A F B FF AAF 316L hy hy 10 20 F C C C F AAA Thorburn’s austenitic materials is compliant with NACE MR0175-2009/ISO 15156-2009 20 20 F C C C FFAA 75 20 F F C C AA Zinc sulphate hy 2 20 F A A A AA AAA ZnSO4 hy AAF hy 20 bp F A A A B AAF hy AAB hy 30 bp F F A A B AAF cs F A A A A B A B B A sa F F A A B T-300 Series Stainless Steel (Austenitic) Thorburn’s metal hose is typically made from austenitic stainless steel, such as, 304, 304L, 316, 316L & 321 T-304 Stainless Steel UNS S30400 / EN 1.4301 T-304 is the most commonly used stainless in the world and is referred to as 18/8. It is weldable, machinable with the right techniques, and has good corrosion resistance. T-304L Stainless Steel UNS S30403 / EN 1.4307 T-304L has reduced or low carbon to eliminate carbide precipitation due to welding so the alloy can be used in the “as welded” condition even in severe corrosive conditions. T-316 Stainless Steel UNS S31600 / EN 1.4401 T316 stainless steel is 18/8 with the inclusion of molybdenum (Mo) in the alloy. To give better overall corrosion resistant properties than Grade 304, particularly higher resistance to pitting and crevice corrosion in chloride environments. T-316L Stainless Steel UNS S31603 / EN 1.4404 T-316L has reduced or low carbon to eliminates carbide precipitation and offers higher creep, stress to rupture and tensile strength at elevated temperatures. T-321 Stainless Steel UNS S32100 / EN 1.4541 Type 321 is an austenitic chrome nickel steel stabilized with titanium. This material has similar properties to alloy 304, but its titanium content lim- its carbide precipitation, making it somewhat easier to machine. This grade is recommended for parts fabricated by welding which cannot be sub- sequently annealed. w w w.thorburnflex.com 75

PG 65-75_Metallic Hose Catalog 12/2/2022 10:28 AM Page 12 In-House Testing Technology Flex-Impulse Testing Up To 700 BAR @ 150ºC Testing Standards & Certification Impulse Testing: CSA N285.0, SAE J343, ISO 6803, ISO 6605 Peak: ISO 6772 Flex-Impulse Testing: ISO 8032 (Half Omega), SAE J1405/ISO 6802 (Full Omega) Burst Testing Up To 4000 BAR Testing Standards & Certification SAE J343, DIN 20024, ISO 7241/2, ISO 1402 (Variation in length), ASME B31.1, ASME B31.3, ASME Sec VIII, ASME Sec III CSA B51 Life Cycle Testing Testing Standards & Certification ISO 10380 Proof Testing Up To 6 Hoses 1000 BAR Testing Standards & Certification SAE J343, DIN 20024, ISO 7241/2, ISO 1402 (Variation in length), ASME B31.1, ASME B31.3, ASME Sec VIII, ASME Sec III CSA B51

PG 65-75_Metallic Hose Catalog 1/23/2023 1:06 PM Page 13 North America Europe Middle East Asia Canada Poland Egypt China THORBURN FLEX Canada THORBURN FLEX Poland THORBURN FLEX Egypt THORBURN FLEX China (Sales) Workshop Head Quarters 41 Wroclawska St., Jelenia Góra, 4 Road 266, New Maadi, W1504, #116 Beisihuan Donglu, 165 Oneida, Pointe-Claire, Quebec Poland Cairo, Egypt Chaoyang Dist., Beijing PRC, 100029 Canada, H9R 1A9 Tel: +48-75-752-1793 Tel: +20122-319-7230 Tel: +86 1391 001 4949 Tel: +1-514-695-8710 [email protected] [email protected] [email protected] [email protected] Lithuania/Belarus Jordan China USA THORBURN FLEX Lithuania THORBURN FLEX Jordan THORBURN FLEX China (Workshop) THORBURN FLEX USA Pergales St. 33b Vilnius, LT-11202, Materials Qudah Building Amer Bin No. 27 Beihuan Road, Qinhuangdao, Hebei 19420 N.W. 10th Street, Lithuania Malik-Khelda PO Box 2444 China, 066001 Pembroke Pines, Florida, Amman 11821 Jordan 33029 USA Tel: +370-5-2059914 Tel: +86 1391 001 4949 Tel: +20122-319-7230 Tel: +1 954-438-7863 [email protected] [email protected] [email protected] [email protected] South America Romania UAE China THORBURN FLEX China (Logistics) Argentina THORBURN FLEX Romania THORBURN FLEX UAE THORBURN FLEX Argentina 8326#, Building A, Jun’an Mansion, No. 58 Bd. Timisoara nr. 104E, Sector 6, Mezzanine Floor, M02, Bldg # 24, Nazer Jinghua Rd., Hi_tech dist., Ningbo City, Alvear General 1.117, Office: 1-C Bucharest, Romania Rashid Al Zaabi Building, Al Asdiqa Street, Zhejiang Province, China 315000 Martinez, Buenos Aires Argentina Madinat Zayed P.O. Box 44384, Tel: +40 (21) 778 68 71 Abu Dhabi, UAE Tel: +86-13858240627 Tel: +54 (0) 11-4792-9956 011-15-5829-6391 [email protected] Tel: +97 12 634 4435 [email protected] [email protected] [email protected] South Korea THORBURN FLEX Korea India Oman 5, Bangbae-ro 43-gil, Seocho-gu, India THORBURN FLEX Oman Seoul, Korea THORBURN FLEX India P.O. Box 19, P.C. 100, Muscat, Tel: +82-10-4334-5474 FF/15, Sardar Complex, Nr. Govind Sultanate of Oman Vadi, Isanpur, Ahmedabad. 382443. India [email protected] Tel: +968 24765 500 Tel: +919909808888 [email protected] [email protected] Africa www.thorburnflex.com S.E. Asia Nigeria Malaysia/Singapore THORBURN FLEX Nigeria THORBURN FLEX Malaysia (Sales) No 8. 7th Floor, Block B10. 1004 Estate, 8, Jalan Sumazau 3/ku5 Bandar Bukit Raja, Victoria Island. Lagos, Nigeria 41050 Klang, Selangor D.E., Malaysia Tel: +234-80-333-98-654 Tel: +60-(0) 12-299-0969 [email protected] [email protected] South Africa Malaysia/Singapore THORBURN FLEX South Africa THORBURN FLEX Malaysia (Workshop) 43 Madeliefie St., Weltevreden Park, 1709 Roodepoort, Gauteng, Lot 17224 Jalan Haruan 6 Oakland South Africa (Tech Support) 70300 Seremban, Negeri Sembilan, Darul Khusus, Malaysia Tel: +27-63-371-7358 Tel: +60-(0) 17-252-8512 [email protected] [email protected]