Standards and Technical Documents - NUT ELEMENT, ATTACHED RETENTION ELEMENT (A.R.E.), 450 DEGREES F, STEEL, AISI 1050 OR 4130, 125 KSI FTU -- NASM14214
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Supplier: Grainger Industrial Supply
Description: Wheel Stud Wrench, -, Metric, Number of Points -, Size 4 In., Black Oxide Finish, Overall Length 9 In., AISI 4130 Steel Construction, For Wheel Adjustment, Meets/Exceeds -
Supplier: DME Company
Description: Center Section: DME No. 5 Steel (H-13 type), pre-heat treated to approximately 42-46 HRc Top Clamping Plate: DME No. 2 Steel (AISI 4130 type), pre-heat treated to 269-321 Bhn (28-34 HRc) Ejector Housing: DCS-1012 and DCS-1215 Only: High Carbon Steel or DME No. 2 Steel (AISI 4130 type), pre-heat
Supplier: U.S. Alloy Co.
Description: deposits which have high ductility, excellent impact values and tensile strengths of approximately 100,000 psi. USA 80S-D2 is commonly used on low carbon and low alloy steels such as AISI 4130 where tensile strengths provided by plain carbon steel wires are inadequate. A well balanced silicon content
Supplier: Lincoln Electric Co. (The)
Description: the Video Typical ApplicationsChromium-Molybdenum and other low alloy steels, including AISI 4130, 4140, 8630Carbon-Manganese and other low alloy steelsOffshoreSubsea componentsProcess pipingWelding PositionsAll, except vertical down
- Welding Process / Form: Other
- Diameter / Thickness: 0.0938 to 0.1562 inch
- Alloy Type: Steel - Low Alloy Carbon
- Low Hydrogen Alloy: Yes
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Materials selection guidelines for geothermal power systems. First edition
AISI 4130 A I S I Type 302 AISI Type 316L A I S I Type 430 ACI Type CF-20 ACI T e CF-3M Sandvz 3RE60 E-Brite 26-1 Carpenter 20 Nickel Base Monel 400 Inconel X-750 Inconel...
Materials selection guidelines for geothermal energy utilization systems
AISI 4130 AISI Typa 302 AISI Typa 316L AIS1 Type 430 Saadvik 3m60 .
Trap-governed hydrogen diffusivity and uptake capacity in ultrahigh-strength AERMET 100 steel
/s at 23 ЊC) is over tenfold less than the values typical of tempered martensitic steels such as AISI 4130 .
Microstructural analysis of steel–nickel alloy clad interfaces
The microstructures obtained by diffusion bonding a low alloy steel AISI 4130 to nickel alloys (Inconel625 and Hastelloy G3), using different techniques (hot uniaxial pressing, hot plane strain compression, hot isostatic pressing (hipping), and coextrusion) have been studied by light microscopy, scanning...
Prediction of microstructure evolution of heat-affected zone in gas metal arc welding of steels
107 5.3 Hardness Measurements of AISI 4130 Steel (condition A) . . .
Kinetics of Fe2 Al5 phase formation on 4130 steel by Al pack cementation and its oxidation resistance
Aluminide coatings were developed on low alloy AISI 4130 steel in the temperature range of 500~700 °C by pack cementation method.
Evaluation of Microstructure and Mechanical Properties at the Interface Region of Laser-Clad Stellite 6 on Steel Using Nanoindentation
Stellite 6 powder was deposited onto a round bar AISI 4130 steel using a continuous wave Nd:YAG laser.
Microstructural alterations associated with friction drilling of steel, aluminum, and titanium
The four workpiece materials chosen were AISI 4130 and 1020 steel, aluminum alloy 5052-H32, and Grade 2 CP tita- nium.