Metallurgical Developments in High-alloy Steels: Proceedings |
Contents
R W K Honeycombe 1 Some strengthening mechanisms in alloy steels | 1 |
Discussion | 15 |
R Brook and J E Russell 19 Highlyalloyed martensitic steels | 19 |
Copyright | |
26 other sections not shown
Common terms and phrases
addition ageing alloys amount appears applications associated ausforming austenite base carbide carbon carbon content carried cast chromium cold compared composition condition consideration containing cooling corrosion cracking decrease deformation discussed ductility effect elements Elongation energy fatigue fault energy formation ft lb further give given grain grain boundaries hardening hardness heat treatment higher impact important increase indicated limited lower maraging steels martensite material mechanical properties metal method molybdenum nickel notch obtained occurs phase plane plate possible precipitation present produced properties quenched range reaction reduction referred Research resistance rolled room temperature shear sheet showed shown similar solution specimens stable stacking fault stacking-fault energy stainless steels strain strengthening stress structure surface Table tempering tensile strength tests tion tons/inē toughness transformation treated tube twin values various welding yield