XL model, Home | Contact | About Me | Privacy Policy |Site Map|Forum |Store, Copyright 2007-2023 WeldingTipsandTricks.com. 309 welding rods are also used in the field to weld carbon steel pipe to stainless pipe. A common piple welding test is called a UA-41 and its a 2 inch schedule 80 6g weld test using carbon steel pipe. cAK{w-l2{A]tJ"zd. 0000080580 00000 n Procedure Specifications For Pipe Welding/Brazing The minimum number of supporting PQRs required by the Committee is two but is usually in the range of two to fifty, the specific minimum number being a Committee decision for each WPS. It is important that the notch is present only in the weld deposit and that the cutting tool (abrasive disc, hacksaw, etc.) The AWS B2 Committee has recognized a need for more SWPSs for the welding of aluminum alloys and is collecting PQRs from industry to create SWPSs that will be more useful to industry. Additionally, it can be used to inspect both joints and welds themselves. 0000081226 00000 n Some common weld tests include Visual Inspection, Bend Testing, tension test, visual inspection, and radiography testing. D) Educator/Student This specification establishes common acceptance criteria for classifying and applying carbon and low-alloy steel . For 25.4 mm t, length and width are 355 and 90 mm; for 19 mm t, the corresponding dimensions are 127 and 51 mm. The course will focus primarily on the 12" butt weld along with the 12" on 12" branch connection. UA 41 is carbon steel 2" schedule 80 open root TIG root pass and fill. 0000082950 00000 n Welding Certification - Stick/Arc Welding, Tig Welding, Mig Welding Certification tests - Welding Tests of all kinds, Tig Welding - Tig Welding Aluminum - Tig Welding Techniques - Aluminum Tig Welding, Mig and Flux Core - gas metal arc welding & flux cored arc welding, Stick Welding/Arc Welding - Shielded Metal Arc Welding, Welding Certification - Stick/Arc Welding, Tig Welding, Mig Welding Certification tests - Welding Tests of all kinds, Welding Projects - Welding project Ideas - Welding project plans, Welding Jobs - Industrial Welding Jobs - Pipe Welding Jobs - Tig Welding Jobs, Classifieds - Buy, Sell, Trade Used Welding Equipment, instructions how to enable JavaScript in your web browser. Its 2" sch 80 pipe in 6g position. Radiographic testing, also known as RT or X-ray, is a common method of inspecting welds for defects. UA 400 Members: Join Our E-Mail List Contact Info UA 400 Physical Location: 2700 Northridge Dr Mail: PO Box 530 Kaukauna, WI 54130-0530 (920) 462-0400 Website Design and Development by MatrixGroupInternational, | Mechanical Contractors Association of America, SMAW using E6010 and uphill progression without PWHT, SMAW using E6010 and downhill progression without PWHT, SMAW using E6011 with AC Current without PWHT, SMAW using E6010 followed by E7018 with PWHT, GTAW followed by SMAW using E7018 with or without PWHT, GTAW followed by GMAW-FC manual/semi-automatic and with or without PWHT, GTAW followed by SAW without supplemental filler metal, GTAW using INMs-1/ER70S-2 with insert and without PWHT, GTAW with insert followed by SMAW using E7018 with or without PWHT, GTAW followed by GMAW-FC with consumable insert and with or without PWHT, GTAW followed by SAW with consumable insert, GMAW Short Circuiting Transfer using ER70S-6, CO2 Shielding Gas without PWHT, GMAW Short Circuiting Transfer using ER80S-D2, CO2 Shielding Gas Without PWHT, GMAW Short Circuiting Transfer using ER70S-2, 75% Argon, 25% CO2 Shielding Gas without PWHT, GMAW Short Circuiting Transfer followed by SMAW without PWHT, GMAAW Short Circuiting Transfer followed by SMAW with PWHT, GMAW Short Circuiting Transfer followed by GMAW Spray Transfer Mode, GMAW-S followed by GMAW-FC with or without PWHT, GMAW Short Circuiting Transfer followed by SAW semi-automatic/machine without PWHT, SMAW using E7010-A1 followed by E7018-A1 without PWHT, GTAW using ER80S-B2 followed by SMAW using E8018-B2 with PWHT, GTAW using ER80S-B2 followed by SMAW using E8018-B2 without PWHT, GTAW with IN-515 insert and ER80S-B2 followed by SMAW using E8018-B2 with PWHT, GTAW with IN-515 insert and ER80S-B2 followed by SMAW using E8018-B2 without PWHT, GTAW with ER80S-B2 followed by SMAW using E8018-B2 with PWHT, GTAW with ER80S-B2 followed by SMAW using E8018-B2 without PWHT, GTAW using ER90S-B3 followed by SMAW using E9018-B3 with PWHT, GTAW using ER90S-B3 followed by SMAW using E9018-B3 without PWHT, GTAW using ER502 followed by SMAW using E502-16 with PWHT, GTAW with IN-521 insert and ER90S-B3 followed by SMAW using E9018-B3 with PWHT, GTAW with IN-521 insert and ER90S-B3 followed by SMAW using E9018-B3 without PWHT, GTAW with ER90S-B3 followed by SMAW using E9018-B3 with PWHT, GTAW with ER90S-B3 followed by SMAW using E9018-B3 without PWHT, GTAW with ER502 followed by SMAW using E502-16 with PWHT, GTAW with IN-502 insert and ER502 followed by SMAW using E502-16 with PWHT, GTAW using ER80S-B6 followed by SMAW using E8018-B3 with PWHT (5% Cr-0.5% Mo), GTAW using ER90S-B3 followed by SMAW using E9018-B6 with PWHT (Grade 91 Cr-Mo), GTAW using ER80S-B6 followed by SMAW using E8018-B6 with PWHT (5% Cr-0.5% Mo), GTAW using ER80S-B8 followed by SMAW using E8018-B8 with PWHT (9% Cr-0.5% Mo), GTAW using ER80S-B9 followed by SMAW using E9015-B9 with PWHT (Grade 91 Cr-Mo), GTAW using ER90S-B9 followed by SMAW using E9018-B9 with PWHT (Grade 91 Cr-Mo), SMAW using EXXX-16 filler metal without PWHT, GTAW using ERXXX filler metal without PWHT, GTAW of thin wall pipe without consumable insert, Automatic Orbital GTAW Welding-Single Pass with no forward travel during high current pulses, Automatic Orbital GTAW Welding-Single Pass and continuous forward travel, GTAW with ERXXX followed by SMAW using EXXX-16 filler metal without PWHT, GTAW of thin wall pipe with consumable insert, GTAW with IN-XXX insert and ER-XXX followed by SMAW using EXXX-16 filler metal without PWHT, GMAW Short Circuiting Transfer, using He/Ar/CO2 shielding gas and Ar gas backing, GMAW Short Circuiting Transfer, using He/Ar/Co2 Shielding gas with no Backing gas, GTAW using EXXX followed by GMAW-FC using EXXT-1 without PWHT, GMAW Short Circuiting Transfer, using EXXX, Followed by GMAW-FC using EXXT-1 without PWHT, SMAW using E309-16 electrodes without PWHT, SMAW using ENiCrFe-3 electrodes without PWHT, GTAW with ER309 followed by SMAW using E309-16 without PWHT, GTAW with ERNiCr-3 followed by SMAW using ENiCrFe-3 without PWHT, GTAW with consumable insert followed by ER309, GTAW with consumable insert and ER309 followed by SMAW using E309-16, GTAW with ERNiCr-3 followed by SMAW using ENiCrFe-3 filler metal, SMAW of Nickel 200 Pipe using ENi-1 without shielding gas, GTAW of Nickel 200 Pipe using ERNi-1 with shielding gas, GTAW of Nickel pipe followed by SMAW using ERNi/ENi filler metal, GTAW of Nickel Copper Alloy (MONEL) using ERNiCu-7 filler metal, SMAW of Nickel Alloy 600 and 601 using ERNiCrFe-3 without shielding gas, GTAW of Nickel Alloy 600 and 601 using ERNiCr-3 with shielding gas, GTAW followed by SMAW of Nickel Alloy 600 and 601 using ERNiCr-3-1/EniCrFe-3, GTAW of Nickel Alloy C-276 followed by SMAW using ERNiCrMo-4 filler metal (N10276), GTAW of P-43 Nickel Alloy to P8 Stainless Steel using ERNiCr-3 filler metal, GTAW of Nickel Alloy [UNS N08366(AL6-X) & N08367 (AL6-XN)] using ERNiCrMo-3, without PWHT, GTAW followed by SMAW of Nickel Alloy 20 (UNS N08020) using ER320 and ER320-16 filler metal, GTAW followed by SMAW of Nickel Alloy 20 (UNS N08020) using ERNiCr Mo-4 filler metal.