Effect of composing element on microstructure and mechanical properties in Mo–Nb–Hf–Zr–Ti multi-principle component alloys

Effect of composing element on microstructure and mechanical properties in Mo–Nb–Hf–Zr–Ti multi-principle component alloys

A series of non-equiatomic Mo–Nb–Hf–Zr–Ti alloys are synthesized to investigate the effects of the concentration variation of each composing elements on the microstructure and mechanical properties. It is found that all studied alloys form single body-centered-cubic (BCC) phase only with the variati...

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Veröffentlicht in:Intermetallics 2016-02, Vol.69, p.13-20
Hauptverfasser: Guo, N.N., Wang, L., Luo, L.S., Li, X.Z., Chen, R.R., Su, Y.Q., Guo, J.J., Fu, H.Z.
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Sprache:eng
Schlagworte:
Alloys
Composing
Dendritic structure
Hardness
High-entropy alloys
Lattice parameters
Mechanical properties
Microstructure
Molybdenum base alloys
Phase stability
Prediction
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container_end_page 20
container_issue
container_start_page 13
container_title Intermetallics
container_volume 69
creator Guo, N.N.
Wang, L.
Luo, L.S.
Li, X.Z.
Chen, R.R.
Su, Y.Q.
Guo, J.J.
Fu, H.Z.
description A series of non-equiatomic Mo–Nb–Hf–Zr–Ti alloys are synthesized to investigate the effects of the concentration variation of each composing elements on the microstructure and mechanical properties. It is found that all studied alloys form single body-centered-cubic (BCC) phase only with the variation of the lattice parameter, which indicates that the concentration variation of each composing elements has no effect on the phase constitutes. All studied alloys exhibit typically dendritic and interdendritic structure while the concentration variation of each composing elements has different effects on the microsegregation. The concentration variation of Zr leads to the most serious microsegregation. Elements with a higher melting point such as Mo and Nb solidify preferentially and thus are enriched in the dendrites. Both the increase and decrease of the concentration of each composing element reduce the hardness and strength of non-equiatomic Mo–Nb–Hf–Zr–Ti alloys compared with the equiatomic MoNbHfZrTi alloy. •A series of non-equiatomicMo–Nb–Hf–Zr–Ti alloys are synthesized by arc melting.•All non-equiatomicMo–Nb–Hf–Zr–Ti alloys are composed of single BCC phase.•The elemental concentration variation has no effects on phase constitute.•The elemental concentration variation has different effects on microsegregation.•The hardness and strength are reduced for allnon–equiatomicMo–Nb–Hf–Zr–Ti alloys.
doi_str_mv 10.1016/j.intermet.2015.10.011
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subjects Alloys
Composing
Dendritic structure
Hardness
High-entropy alloys
Lattice parameters
Mechanical properties
Microstructure
Molybdenum base alloys
Phase stability
Prediction
title Effect of composing element on microstructure and mechanical properties in Mo–Nb–Hf–Zr–Ti multi-principle component alloys
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