Effect of hydrogen on microstructure evolution and tensile properties of TC21 alloy

X. M. Zhang; Y. Q. Zhao; W. D. Zeng

doi:10.1179/174328409X439132

Effect of hydrogen on microstructure evolution and tensile properties of TC21 alloy

X. M. Zhang, Y. Q. Zhao, W. D. Zeng

School of Materials Sience and Engineering

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

10 Scopus citations

Abstract

Hydrogen can be used as a temporary element to refine microstructure and improve workability of titanium alloys. In this article, the influence of hydrogen on the microstructure evolution and tensile properties of TC21 alloy is investigated. The microstructure observation reveals that the FCC hydrides δ precipitate firstly at the grainboundaries of primary α phases in TC21 alloy with hydrogen contents above 0·319 wt-%. These hydrides which block the grains deformation reduce both the strength and ductility at room temperature. With increasing hydrogen contents, the elevated temperature strength decreases first and then increases, while the ductility behaves the contrary. These are resulted from the interaction of hydrogen induced softening and hardening.

Original language	English
Pages (from-to)	214-218
Number of pages	5
Journal	Materials Science and Technology
Volume	27
Issue number	1
DOIs	https://doi.org/10.1179/174328409X439132
State	Published - Jan 2011

Keywords

Hydrides
Hydrogenation
Mechanical properties
Titanium alloy

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abstract = "Hydrogen can be used as a temporary element to refine microstructure and improve workability of titanium alloys. In this article, the influence of hydrogen on the microstructure evolution and tensile properties of TC21 alloy is investigated. The microstructure observation reveals that the FCC hydrides δ precipitate firstly at the grainboundaries of primary α phases in TC21 alloy with hydrogen contents above 0·319 wt-%. These hydrides which block the grains deformation reduce both the strength and ductility at room temperature. With increasing hydrogen contents, the elevated temperature strength decreases first and then increases, while the ductility behaves the contrary. These are resulted from the interaction of hydrogen induced softening and hardening.",

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AU - Zhao, Y. Q.

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N2 - Hydrogen can be used as a temporary element to refine microstructure and improve workability of titanium alloys. In this article, the influence of hydrogen on the microstructure evolution and tensile properties of TC21 alloy is investigated. The microstructure observation reveals that the FCC hydrides δ precipitate firstly at the grainboundaries of primary α phases in TC21 alloy with hydrogen contents above 0·319 wt-%. These hydrides which block the grains deformation reduce both the strength and ductility at room temperature. With increasing hydrogen contents, the elevated temperature strength decreases first and then increases, while the ductility behaves the contrary. These are resulted from the interaction of hydrogen induced softening and hardening.

AB - Hydrogen can be used as a temporary element to refine microstructure and improve workability of titanium alloys. In this article, the influence of hydrogen on the microstructure evolution and tensile properties of TC21 alloy is investigated. The microstructure observation reveals that the FCC hydrides δ precipitate firstly at the grainboundaries of primary α phases in TC21 alloy with hydrogen contents above 0·319 wt-%. These hydrides which block the grains deformation reduce both the strength and ductility at room temperature. With increasing hydrogen contents, the elevated temperature strength decreases first and then increases, while the ductility behaves the contrary. These are resulted from the interaction of hydrogen induced softening and hardening.

KW - Hydrides

KW - Hydrogenation

KW - Mechanical properties

KW - Titanium alloy

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Effect of hydrogen on microstructure evolution and tensile properties of TC21 alloy

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Keywords

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