Antony, Wear-Resistant Cobalt-Base Alloys, JOM 35(2) (1983) 52-60

· 1983

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Thermodynamics of stacking faults and phase stability in cobalt alloys: A combined computational and experimental study

cond-mat.mtrl-sci · 2026-05-06 · unverdicted · novelty 5.0

V, Ni, Fe, Mo and W lower the fcc-hcp transformation temperature in Co by raising stacking-fault energy at finite temperature, while Cr and C raise the transformation temperature; at 0 K the energy is set mainly by atomic misfit volume except for magnetic 3d solutes.

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Thermodynamics of stacking faults and phase stability in cobalt alloys: A combined computational and experimental study cond-mat.mtrl-sci · 2026-05-06 · unverdicted · none · ref 4
V, Ni, Fe, Mo and W lower the fcc-hcp transformation temperature in Co by raising stacking-fault energy at finite temperature, while Cr and C raise the transformation temperature; at 0 K the energy is set mainly by atomic misfit volume except for magnetic 3d solutes.

Antony, Wear-Resistant Cobalt-Base Alloys, JOM 35(2) (1983) 52-60

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