Search Results for martensitic microstructure

Fig. 7 Tempered martensitic microstructure of a quench-hardened and tempered PM carbon steel (F-0008) More

Fig. 9 Tempered martensitic microstructure of a quench-hardened and tempered PM copper steel (FC-0208) More

Fig. 17 Tempered martensitic microstructure of a quench-hardened and tempered part made of prealloyed steel (FL-4605) More

Fig. 39 Martensitic microstructure of Project 70 416 stainless steel (Fe->0.15%C->0.15%S-13%Cr) in the wrought heat treated condition (approximately 98 HRB) tint etched with Beraha's CdS reagent. The white grains are delta ferrite, and the elongated gray particles are manganese sulfides More

Fig. 51 Martensitic microstructure of EP 428 (revealed using Vilella's reagent) in the (a) as-heat-treated condition, and after 100,000 h at (b) 350 °C (660 °F) and (c) 500 °C (930 °F) service. Used as blades in electric power generators in Russia More

Fig. 54 Martensitic microstructure of Spanish cast high-chromium white irons. (a) and (b) Fe-2.21C-0.92Mn-0.54Si-12.65Cr-0.3Ni-0.70Mo-0.11V at 670 HV. (c) and (d) Fe-3.10C-0.75Mn-1.03Si-18.59Cr-0.22Ni-1.96Mo at 657 HV. (e) and (f) Fe-2.84C-0.67Mn-0.48Si-25.92Cr-0.21Ni-0.14Mo at 643 HV. All More

Fig. 55 Martensitic microstructure, with δ-ferrite, in as-cast 410 stainless steel (441 HV). Etched with Vilella's reagent More

Fig. 63 Martensitic microstructure of PH 13-8 Mo stainless steel etched with modified Fry's reagent More

Fig. 64 Martensitic microstructure of Custom 450 stainless steel in the solution-annealed and aged condition. (a) H1050 temper. Etched with modified Fry's reagent. (b) H1150 temper. Etched with waterless Kalling's reagent More

Fig. 65 Martensitic microstructure of Custom 455 stainless steel in the (a) solution-annealed condition (281 HV), etched with Vilella's reagent, and in the solution-annealed and aged conditions. (b) 900 temper (530 HV). Etched with modified Fry's reagent. (c) H950 temper (451 HV). (d) H1000 More

Fig. 69 Martensitic microstructure of 18Ni(250) maraging steel in the (a) solution-annealed condition (305 HV) and the (b) solution-annealed and aged condition (523 HV). Revealed using modified Fry's reagent More

Fig. 70 Martensitic microstructure of low-residual 18Ni(250) maraging steel in the (a) solution-annealed condition (319 HV) and the (b) solution-annealed and aged condition (565 HV). Revealed using modified Fry's reagent More

Fig. 71 Martensitic microstructure of solution-annealed and aged 18Ni(300) maraging steel (596 HV). Etched with modified Fry's reagent More

Fig. 72 Martensitic microstructure of solution-annealed and aged cobalt-free Vascomax T-250 maraging steel (535 HV). Etched with modified Fry's reagent More

Fig. 33 Tempered martensitic microstructure of a quench-hardened and tempered P/M carbon steel (F-0008) More

Fig. 38 Tempered martensitic microstructure of a quench-hardened and tempered P/M copper steel (FC-0208) More

Fig. 47 Tempered martensitic microstructure of a quench-hardened and tempered part made from a prealloyed steel (FL-4605) More

Fig. 1 Ferrite-martensite microstructure of a dual-phase steel (0.06% C, 1.5% Mn; water quenched from 760 °C, or 1400 °F). Source: Ref 1 More

Fig. 18 Typical low-carbon (lath) martensite microstructure with some acicular ferrite. 8620-grade steel. Nital etch. Original magnification: 500× More

Fig. 7 Ferrite-martensite microstructure of a dual-phase steel (0.06% C, 1.5% Mn; water quenched from 760 °C, or 1400 °F). Source: Ref 49 More