Abstract
An investigation was conducted to determine softening and hardening behavior in ternary Mo alloys and to correlate these effects with electron concentration in the alloys. Results showed that the hardness behavior of ternary Mo alloys could be correlated with results anticipated from binary data based upon expressions involving the number of s + d electrons contributed by the solute elements. It was further shown that combining alloying elements at concentrations that produce the maximum amount of softening in Mo does not result in additive softening in ternary Mo alloys. Once a critical electron concentration is exceeded, only alloy hardening is observed. A comparison of hardness behavior with literature data on Hall coefficient and magnetic susceptibility for W-Re alloys, showed that the hardness minima occur at the same Re concentrations where minima are observed for the physical property measurements. These observations, and the correlation of hardness with electron concentration, further support the hypothesis that alloy softening in Group VI metals is an intrinsic characteristic of these metals and that electron concentration plays the dominant role in controlling hardness.
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