Abstract:Mo-0.1Zr powder was prepared by ball-milling, then this powder was made into high tenacious alloy with tensile strength above 650 MPa and elongation above 30% after a series of processes including press forming, pre-sintering, high-temperature sintering, and vacuum heat treating. The effects of vacuum heat treatment on properties and microscopic structure of the alloy were investigated. The results show that, after sintering at high temperature, the properties of Mo-0.1Zr alloy have no obvious improvement compared with pure Mo, and its fracture exhibits an obvious characteristic of intergranular brittle rupture. However, after vacuum heat treatment, the performance of Mo-0.1Zr alloy rises obviously, tensile strength increases by 40%, elongation percentage increases from 7.3% to 31.2%, and alloy fracture translates from intergranular brittle rupture to transcytalline ductile rupture. At the same time, parts of the grains exhibit a characteristic of ductile tearing. The significant increase in performance of Mo-0.1Zr alloy after vacuum heat treatment is closely related to the elimination of vacancies and dislocations. However, an excessively high temperature will cause the grain growth, resulting in the decrease of increasing extent of alloy performance; an excessively low vacuum heat treatment temperature has little effect on increasing the alloy performance because it can hardly play a role in eliminating crystal defects.

Key words: Mo-0.1Zr alloy; tensile strength; elongation; intergranular rupture; transcytalline rupture; ductile tearing