Effect of α-phase morphology on low-cycle fatigue behavior of TC21 alloy

Changsheng Tan; Xiangli Li; Qiaoyan Sun; Lin Xiao; Yongqing Zhao; Jun Sun

doi:10.1016/j.ijfatigue.2015.01.010

Effect of α-phase morphology on low-cycle fatigue behavior of TC21 alloy

Changsheng Tan
, Xiangli Li
, Qiaoyan Sun
, Lin Xiao
, Yongqing Zhao
, Jun Sun

School of Materials Science and Engineering

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

88 Scopus citations

Abstract

Low-cycle fatigue behavior of TC21 alloy with equiaxed α phase embedded in the β transformed matrix (EM) and full lamellar α phase (LM) was investigated. The results show that the EM microstructure possesses higher strength, ductility and longer fatigue life than those of the LM one. Dislocation structures are straight dislocation lines in both EM and LM; however, more dislocation tangles and debris were observed in the α than in the β phase. The planar slip predominates cyclic deformation in the α phase, and promotes strain concentration and crack initiation at α phase boundaries.

Original language	English
Pages (from-to)	1-9
Number of pages	9
Journal	International Journal of Fatigue
Volume	75
DOIs	https://doi.org/10.1016/j.ijfatigue.2015.01.010
State	Published - Jun 2015

Keywords

Crack nucleation
Cyclic stress response
Low-cycle fatigue
Planar slip
Titanium alloy

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10.1016/j.ijfatigue.2015.01.010

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title = "Effect of α-phase morphology on low-cycle fatigue behavior of TC21 alloy",

abstract = "Low-cycle fatigue behavior of TC21 alloy with equiaxed α phase embedded in the β transformed matrix (EM) and full lamellar α phase (LM) was investigated. The results show that the EM microstructure possesses higher strength, ductility and longer fatigue life than those of the LM one. Dislocation structures are straight dislocation lines in both EM and LM; however, more dislocation tangles and debris were observed in the α than in the β phase. The planar slip predominates cyclic deformation in the α phase, and promotes strain concentration and crack initiation at α phase boundaries.",

keywords = "Crack nucleation, Cyclic stress response, Low-cycle fatigue, Planar slip, Titanium alloy",

author = "Changsheng Tan and Xiangli Li and Qiaoyan Sun and Lin Xiao and Yongqing Zhao and Jun Sun",

year = "2015",

month = jun,

doi = "10.1016/j.ijfatigue.2015.01.010",

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T1 - Effect of α-phase morphology on low-cycle fatigue behavior of TC21 alloy

AU - Tan, Changsheng

AU - Li, Xiangli

AU - Sun, Qiaoyan

AU - Xiao, Lin

AU - Zhao, Yongqing

AU - Sun, Jun

PY - 2015/6

Y1 - 2015/6

N2 - Low-cycle fatigue behavior of TC21 alloy with equiaxed α phase embedded in the β transformed matrix (EM) and full lamellar α phase (LM) was investigated. The results show that the EM microstructure possesses higher strength, ductility and longer fatigue life than those of the LM one. Dislocation structures are straight dislocation lines in both EM and LM; however, more dislocation tangles and debris were observed in the α than in the β phase. The planar slip predominates cyclic deformation in the α phase, and promotes strain concentration and crack initiation at α phase boundaries.

AB - Low-cycle fatigue behavior of TC21 alloy with equiaxed α phase embedded in the β transformed matrix (EM) and full lamellar α phase (LM) was investigated. The results show that the EM microstructure possesses higher strength, ductility and longer fatigue life than those of the LM one. Dislocation structures are straight dislocation lines in both EM and LM; however, more dislocation tangles and debris were observed in the α than in the β phase. The planar slip predominates cyclic deformation in the α phase, and promotes strain concentration and crack initiation at α phase boundaries.

KW - Crack nucleation

KW - Cyclic stress response

KW - Low-cycle fatigue

KW - Planar slip

KW - Titanium alloy

UR - https://www.scopus.com/pages/publications/84922165501

U2 - 10.1016/j.ijfatigue.2015.01.010

DO - 10.1016/j.ijfatigue.2015.01.010

M3 - 文章

AN - SCOPUS:84922165501

SN - 0142-1123

VL - 75

SP - 1

EP - 9

JO - International Journal of Fatigue

JF - International Journal of Fatigue

ER -

Effect of α-phase morphology on low-cycle fatigue behavior of TC21 alloy

Abstract

Keywords

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