Synthesis of Powder Alloys Based on the Ti–Ni–Hf System via a Calcium Hydride Reduction Process


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Abstract

We have demonstrated the feasibility of preparing powder alloys based on intermetallic phases in the Ti–Ni–Hf and Ti–Ni–Hf–Zr systems by a calcium hydride reduction process and investigated the physicochemical and technological properties of Ti40Ni50Hf10, Ti28Ni50Hf22, and Ti28Ni50Hf12Zr10 powders thus prepared. Experimental data show that the synthesis of the powders typically involves the formation of intermediate phases inherent in the binary phase diagrams of the constituent components of the alloys. According to X-ray diffraction data, the synthesized powders consist predominantly of B19' martensite, whose content depends significantly on the synthesis temperature. At given process parameters, the alloy with the lowest Hf dopant concentration is the most homogeneous.

About the authors

A. V. Kasimtsev

OOO Metsintez; Tula State University

Email: metsintez@tula.net
Russian Federation, Krasnoarmeiiskii pr. 25, Tula, 300041; pr. Lenina 84, Tula, 300041

S. S. Volod’ko

OOO Metsintez; Tula State University

Author for correspondence.
Email: metsintez@tula.net
Russian Federation, Krasnoarmeiiskii pr. 25, Tula, 300041; pr. Lenina 84, Tula, 300041

S. N. Yudin

OOO Metsintez; Tula State University

Email: metsintez@tula.net
Russian Federation, Krasnoarmeiiskii pr. 25, Tula, 300041; pr. Lenina 84, Tula, 300041

T. A. Sviridova

Moscow Institute of Steel and Alloys (National University of Science and Technology)

Email: metsintez@tula.net
Russian Federation, Leninskii pr. 4, Moscow, 119049

V. V. Cheverikin

Moscow Institute of Steel and Alloys (National University of Science and Technology)

Email: metsintez@tula.net
Russian Federation, Leninskii pr. 4, Moscow, 119049

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