Tomomichi Ozaki scite author profile

Composition dependence of Young's modulus in Ti-V and Ti-Nb binary alloys and Sn-added ternary alloys quenched from phase region was investigated at room temperature in relation to the stability of phase. A minimum of Young's modulus in the binary alloys appears at such a composition that athermal ! phase transformation is almost completely suppressed. Formation of isothermal ! phase by aging after quenching increases Young's modulus. Sn addition to the binary alloys suppresses or retards ! transformation, thereby decreasing Young's modulus. Optimization of alloy composition in Ti-Nb-Sn alloys leads to low Young's modulus of about 40 GPa. The composition dependence of Young's modulus obtained experimentally in this study can be qualitatively explained by the theoretical discrete-variational X cluster method.

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Enhanced age-hardening and formation of plate precipitates in Mg–Gd–Ag alloys

Yamada

et al. 2009

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Selective laser melting of pure molybdenum: Evolution of defect and crystallographic texture with process parameters

2020

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Composition Dependence of Young's Modulus in Beta Titanium Binary Alloys

Hanada

Ozaki

Takahashi³

et al. 2003

MSF

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Tomomichi Ozaki

Beta Ti Alloys with Low Young's Modulus

Enhanced age-hardening and formation of plate precipitates in Mg–Gd–Ag alloys

Selective laser melting of pure molybdenum: Evolution of defect and crystallographic texture with process parameters

Composition Dependence of Young's Modulus in Beta Titanium Binary Alloys

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