Enhancement of uniform elongation in high strength Ti-Mo based alloys by combination of deformation modes

X. H. Min; K. Tsuzaki; S. Emura; K. Tsuchiya

doi:10.1016/j.msea.2011.02.071

Enhancement of uniform elongation in high strength Ti-Mo based alloys by combination of deformation modes

X. H. Min, K. Tsuzaki, S. Emura, K. Tsuchiya

Research output: Contribution to journal › Article › peer-review

92 Citations (Scopus)

Abstract

A combination of different deformation modes, namely, dislocation slip and {3. 3. 2}〈1. 1. 3〉 twinning was found to be effective for achieving high yield strength and large uniform elongation in the β type Ti-15Mo-5Zr and Ti-10Mo-2Fe alloys in the as-solution treated condition, where the Mo equivalency was designed to be between 15.3 and 18.7. mass%. The high yield strength was caused mainly by the slip, and the large uniform elongation was caused by the twinning through significant work hardening. The change in the work hardening rate with strain correlated well with the formation of mechanical twins. The deformation was heterogeneous among the grains and the twins were not seen in some of the grains even after the tensile fracture. This heterogeneity was discussed based on the effects of the grain orientation and the segregation of alloying elements.

Original language	English
Pages (from-to)	4569-4578
Number of pages	10
Journal	Materials Science & Engineering A: Structural Materials: Properties, Microstructure and Processing
Volume	528
Issue number	13-14
DOIs	https://doi.org/10.1016/j.msea.2011.02.071
Publication status	Published - May 25 2011
Externally published	Yes

All Science Journal Classification (ASJC) codes

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1016/j.msea.2011.02.071

Cite this

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abstract = "A combination of different deformation modes, namely, dislocation slip and {3. 3. 2}〈1. 1. 3〉 twinning was found to be effective for achieving high yield strength and large uniform elongation in the β type Ti-15Mo-5Zr and Ti-10Mo-2Fe alloys in the as-solution treated condition, where the Mo equivalency was designed to be between 15.3 and 18.7. mass%. The high yield strength was caused mainly by the slip, and the large uniform elongation was caused by the twinning through significant work hardening. The change in the work hardening rate with strain correlated well with the formation of mechanical twins. The deformation was heterogeneous among the grains and the twins were not seen in some of the grains even after the tensile fracture. This heterogeneity was discussed based on the effects of the grain orientation and the segregation of alloying elements.",

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AU - Min, X. H.

AU - Tsuzaki, K.

AU - Emura, S.

AU - Tsuchiya, K.

PY - 2011/5/25

Y1 - 2011/5/25

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AB - A combination of different deformation modes, namely, dislocation slip and {3. 3. 2}〈1. 1. 3〉 twinning was found to be effective for achieving high yield strength and large uniform elongation in the β type Ti-15Mo-5Zr and Ti-10Mo-2Fe alloys in the as-solution treated condition, where the Mo equivalency was designed to be between 15.3 and 18.7. mass%. The high yield strength was caused mainly by the slip, and the large uniform elongation was caused by the twinning through significant work hardening. The change in the work hardening rate with strain correlated well with the formation of mechanical twins. The deformation was heterogeneous among the grains and the twins were not seen in some of the grains even after the tensile fracture. This heterogeneity was discussed based on the effects of the grain orientation and the segregation of alloying elements.

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Enhancement of uniform elongation in high strength Ti-Mo based alloys by combination of deformation modes

Abstract

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