Abstract
The substitution of various metals into ZrMn 2 to produce possible materials for heat utilization systems was studied in the temperature range 200–250 °C. As a result, vanadium was found to be the most effective element for decreasing the equilibrium hydrogen pressure of the ZrMn 2 alloy, cobalt was found to be an effective element for reducing the plateau slope of the ZrMn 2 alloy and the ternary Zr-Mn-V alloy, and vanadium was found to be an effective element for reducing the hysteresis of the ZrMn 2 alloy. Results show that quaternary Zr-Mn-Co-V alloy has excellent equilibrium characteristics in the temperature range 200–250 °C for heat utilization systems.
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