Vogt: Hardness variation in a cathodic hydrogen-charged austenitic stainless steel, Scr. Mater. 37 (1997) 1499-1504.A. Iost, J. B. Vogt, Hardness Variation in a Cathodic Hydrogen Charged Aus- tenitic Stainless Steel, (Scripta Materialia, v.37, p.1499-1504, 1997)...
critical pitting temperature and impact energy for S31803 aged at 850°C for 10 minutes is mainly attributed toσphase precipitation, while the hardness is almost unchanged [3]. However, DSSs and SDSSs do contain some Ni and are thus still quite expensive. Replacing Ni with Mn would reduce ...
It increases tensile strength and hardness Reduces ductility and makes the steel more brittle. The crystalline structure can be restored by annealing. Austenitic stainless steels are the most common and widely known types of stainless steels. They make up over 70 % of total stainless steel productio...
However strength and hardness can be increased by cold working, which will also reduce ductility. A full solution anneal (heating to around 1045°C followed by quenching or rapid cooling) will restore the material to its original condition, removing alloy segregation, sensitisation, sigma phase and...
A new austenitic stainless steel with the following composition by weight is described: 0.03%<carbon<0.07%, 7.0%<manganese<8.5%, 0.3%<silicon 0.7%, sulphur<0.030%, phosphorus<0.04
Z - Reduction in cross section on fracture (%) 60-65 Vickers hardness ( HV): (+CR) 220 - 400 Brinell hardness (HB): (+QT) 215 Brinell hardness (HB): (+AT) 200 Equivalent grades of steel X5CrNiMo17-12-2 (1.4401) 上海隆继集团...
Hardness, Brinell 210 210 254SMo Applications 1) Ocean: marine structures in the sea environment, seawater desalination, marine aquaculture, seawater heat exchange, etc.; 2) Environmental Protection: flue gas desulfurization device for thermal power generation, wastewater treatment, e...
austenitic stainless steelcrystal microstructureelectrical resistivityhardnesshigh-pressure effectsmagnetisationplastic deformationprecipitationsegregationProperty changes and microstructural evolution of deformed and subsequently annealed austenitic stainless steel are investigated. SUS304 samples were deformed by high ...
The Stainitec process produces a similar extremely hard surface ‘S-phase’ layer by a plasma treatment. The surface hardness of the layer can reach up to 1400Hv and is always over 1000Hv. The depths of layers created with these treatments depends on the type of stainless steel that is use...
Nanoscale-twinning-induced strengthening in austenitic stainless steel thin films Magnetron-sputter-deposited austenitic 330 stainless steel (330 SS) films, several microns thick, were found to have a hardness 6.5 GPa, about an order of ... X Zhang,A Misra,H Wang,... - 《Applied Physics Lette...