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When was the A63 steel forging specification withdrawn?
A63- Withdrawn 1941: Specification for Alloy Steel Forgings for Locomotives and Cars A64- Withdrawn 1937: Methods for Chemical Analysis of Steel, Cast Iron, Open-Hearth Iron, and Wrought Iron A69- Withdrawn 1927: Specification for Elliptical Steel Springs for AutomobilesSee all results for this questionWhat was the name of the withdrawn ASTM standard?A89-43 Withdrawn 1947: Specification for Low-Tensile Strength Steel Plates of Flange Carbon-Qualities and Firebox A91- Withdrawn 1940: Methods of Determining Weight of Casting on Tin, Terne, and Lead-Coated Sheets A93- Withdrawn 1965: Specification for Zinc-Coated Galvanized Iron or Steel Sheets, Boils, and Butt LengthsSee all results for this questionWhat was the a200-94 steel tube specification?A200-94 Specification for Seamless Intermediate Alloy-Steel Still Tubes for Refinery Service (Withdrawn 1999) A201- Withdrawn 1967: Specification for Carbon-Silicon Steel Plates of Intermediate Tensile Ranges for Fusion-Welded Boilers and Other Pressure VesselsSee all results for this question
US8901455B2 - Welding wire for submerged arc welding astm g 47 1998 r2011 standard test method for Submerged arc welding
The copper cladding normally applied to the surfaces of a submerged arc welding wire for preventing weld gun contact tip abrasive wear is replaced with a solid lubricant. This eliminates copper contamination of the weld from the copper cladding while preserving the useful life of the contact tip.Cited by: 5Publish Year: 2008Author: J. Ben Schaeffer, Boris KahnUS4336441A - Welding process - Google PatentsA welding method for welding a base metal with a welding wire of specified alloy composition using a TIG welding process, automatically controlling an arc length between a nonconsumable electrode and the base metal, deflecting the arc forward in the welding advance direction by the influence of magnetic fields resulting from DC current flow through the welding wire to prevent arc blow, weaving astm g 47 1998 r2011 standard test method for Submerged arc weldingUS20050257853A1 - Welding wire for modified 9Cr-1Mo US20050257853A1 - Welding wire for modified 9Cr-1Mo steel, and submerged-arc welding material - Google Patents Welding wire for modified 9Cr-1Mo steel, and submerged-arc welding material Download PDF Info Publication number astm g 47 1998 r2011 standard test method for Submerged arc welding 238000003466 welding Methods
REFERENCES, BIBLIOGRAPHY, AND ACRONYMS
ASTM, 1997, Standard Test Methods and Definitions for Mechanical Testing of Steel Products astm g 47 1998 r2011 standard test method for Submerged arc welding Submerged Arc Welding ANSI/AWS A5.25/A5.25M-97, astm g 47 1998 r2011 standard test method for Submerged arc welding Specification for Low-Alloy Steel Electrodes for Flux-Cored Arc Welding AWS D1.1-1998, 2000, Structural Welding Code Steel AWS D1.3, astm g 47 1998 r2011 standard test method for Submerged arc weldingOptimization of process parameters of submerged arc astm g 47 1998 r2011 standard test method for Submerged arc weldingMay 08, 2014 · In this article, a greyfuzzy-based algorithm with the Taguchi method is proposed to find the optimal process parameters setting for submerged arc welding process of AISI 1518 grade steel on the multiple performance characteristics such as tensile stress, toughness and hardness of weldment.Optimization Process Parameters of Submerged Arc Welding astm g 47 1998 r2011 standard test method for Submerged arc weldingSubmerged arc welding (SAW) process is an essential metal joining processes in industry. The quality of weld is a very important working aspect for the manufacturing and construction industries astm g 47 1998 r2011 standard test method for Submerged arc welding
Modification of mechanical properties of submerged arc astm g 47 1998 r2011 standard test method for Submerged arc welding
Feb 19, 2020 · This work was aimed to analyze the changes in the mechanical properties of submerged arc welds due to the growth of the acicular ferrite (AF) phase promoted by addition of Mn 2 O 3 or TiO 2-nanoparticles (Mn 2 O 3 or TiO 2-NPs).Such Mn 2 O 3 or TiO 2-NPs were uniformly deposited along the V-groove, formed from joining two beveled surfaces of low-carbon steel plates to be welding.Microabrasion-corrosion resistance of NiCr superalloys astm g 47 1998 r2011 standard test method for Submerged arc weldingMar 01, 2020 · The counter electrode was a platinum gauze with 80 mesh. The tests were carried out using a modified version of the standard ASTM G5-94 . The differences in relation to the standard test tests were the use of aerated conditions, a test area of 2 cm 2, and higher potential scanning rates (0.7 mV s 1). This choice of conditions was necessary astm g 47 1998 r2011 standard test method for Submerged arc weldingInfluence of cold-wire tandem submerged arc welding astm g 47 1998 r2011 standard test method for Submerged arc weldingMay 30, 2016 · Tandem submerged arc welding with an additional cold-wire (CWTSAW) is being developed for pipeline manufacturing to improve productivity in terms of deposition rate and travel speed of welding. An appropriate understanding of the welding conditions to guarantee requisite weld geometry, appearance, and mechanical properties is always essential in the development of a welding Cited by: 13Publish Year: 2017Author: Mohsen Mohammadijoo, Stephen Kenny, Laurie Collins, Hani Henein, Douglas G. IveyEstimated Reading Time: 6 mins
Fatigue crack initiation and growth in A517 submerged arc astm g 47 1998 r2011 standard test method for Submerged arc welding
Oct 01, 2000 · The butt-welded joint investigated in this programme was made using the submerged arc welding process. The base plate employed was 10 mm thick ASTM A517 steel (specified minimum yield strength 680 MPa) and the weld metal was deposited using an A5.23 consumable (AWS Class 120S-1) and F11A6-EF6-F6 flux, which slightly overmatched the base astm g 47 1998 r2011 standard test method for Submerged arc weldingEffect of weld metal ferrite content on mechanical astm g 47 1998 r2011 standard test method for Submerged arc weldingFeb 13, 2019 · Accordingly, ASTM Standard G 36 was not employed in the present work. The ASTM G 123 test method employed to evaluate CSCC resistance is stated in the standard to be suitable for wrought stainless steels, including duplex (ferritic-austenitic) stainless and Effect Of Surface Alloying On Wear Behaviour OF En-47 astm g 47 1998 r2011 standard test method for Submerged arc weldingJan 01, 2020 · G65- 16: Standard Test Method for Measuring Abrasion Using the Dry Sand / Rubber Wheel, ASTM Standards , 04 ( Reapproved 2010 ) ( 2013 ) , pp. 1 - 12 , 10.1520/G0065-04R10.2 View Record in Scopus Google Scholar
CSA W59 : 2013 WELDED STEEL CONSTRUCTION (METAL
Jan 01, 2013 · specification for carbon steel electrodes for shielded metal arc welding: aws a5.23/a5.23m : 2011 : specification for low-alloy steel electrodes and fluxes for submerged arc welding: astm a 709/a709m : 2017-09 : specification for structural steel for bridges: aws d1.6/d1.6m : 2007 : structural welding code - stainless steel: iso 19902 : 2007(r2011)Application of Macro-Instrumented Indentation Test for astm g 47 1998 r2011 standard test method for Submerged arc weldingSubmerged-arc welding with AWS A5.23 EG (EFG mod.) wire ( = 4 mm) and EN ISO 14174:SA FB 1 55 AC H5 flux , and flux-cored arc welding with AWS A5.28 E80C-G H4 ( = 1.2 mm), were used for the initial and repair welds, respectively. A mixture of argon and carbon dioxide with the flow rate set at 25 L/min was used as the shielding gas.Some results are removed in response to a notice of local law requirement. For more information, please see here.ASTM International : Withdrawn StandardsA346-74(1993)e1 Standard Test Method for Alternating-Current Magnetic Performance of Laminated Core Specimens Using the Dieterly Bridge Method (Withdrawn 1998) A349- Withdrawn 1984: Test Methods for Alternating-Current Magnetic Properties of Materials Using the Wattmeter-Ammeter-Voltmeter Method, 50 to 60 Hz and 50 cm Epstein Frame
ASTM International - Withdrawn Standards
D96-88(1998) Standard Test Methods for Water and Sediment in Crude Oil by Centrifuge Method (Field Procedure) (Withdrawn 2000) D99-26 Specification for Asphalt Cement, 40 to 50 Penetration, for Use in Sheet Asphalt and Asphaltic Concrete Pavements and as Filler for Brick and Block Pavements (Withdrawn 1939)ASTM E 8 : 2004 Standard Test Methods for Tension Testing astm g 47 1998 r2011 standard test method for Submerged arc weldingASTM G 123 : 2000 : R2011 : Standard Test Method for Evaluating Stress-Corrosion Cracking of Stainless Alloys with Different Nickel Content in Boiling Acidified Sodium Chloride Solution: ASME A112.3.1 : 2007 : R2017 : STAINLESS STEEL DRAINAGE SYSTEMS FOR SANITARY DWV, STORM, AND VACUUM APPLICATIONS, ABOVE- AND BELOW-GROUND: MIL STD 2103 : 0ASTM E 30 : 1989 Test Methods for Chemical Analysis of astm g 47 1998 r2011 standard test method for Submerged arc weldingASTM G 81 : 1997 : TEST METHOD FOR JAW CRUSHER GOUGING ABRASION TEST: ASTM A 834 : 1995 : R2011 : Standard Specification for Common Requirements for Iron Castings for General Industrial Use: ASTM A 556/A556M : 1996 : R2001 : Standard Specification for Seamless Cold-Drawn Carbon Steel Feedwater Heater Tubes: ASTM C 715 : 1990 : R1996
ASTM A 29/A29M : 2016 : REDLINE Standard Specification
Dec 01, 2016 · SPECIFICATION FOR CARBON STEEL ELECTRODES AND FLUXES FOR SUBMERGED ARC WELDING: ASTM A 125 : 1996 : R2013 : Standard Specification for Steel Springs, Helical, Heat-Treated: ASTM A 663/A663M : 2017 : REDLINE : Standard Specification for Steel Bars, Carbon, Merchant Quality, Mechanical Properties: ASTM A 695 : 1990ASME PV CODE 8 DIV 2 - International Standards Store AMERJan 01, 2017 · Standard Test Method for Testing Nonmetallic Seal Materials by Immersion in a Simulated Geothermal Test Fluid: FSA G 605 : 2011 : STANDARD TEST METHOD FOR DETERMINING (M) AND (Y) LOADING CONSTANTS APPLICABLE TO GASKET MATERIALS AND DESIGNS: API 16A : 2017 : INC : ERR 1+ERR2+ADD1 : 2018 : SPECIFICATION FOR DRILL ASME B31.8 - International Standards Store AMEROct 19, 2016 · Standard Test Method for Performance Testing of Excess Flow Valves: I.S. EN ISO 17078-4:2010 : PETROLEUM AND NATURAL GAS INDUSTRIES - DRILLING AND PRODUCTION EQUIPMENT - PART 4: PRACTICES FOR SIDE-POCKET MANDRELS AND RELATED EQUIPMENT: ASTM F 1588 : 1996 : R2002 : Standard Test Method for Constant Tensile Load Joint Test (CTLJT)