Superplasticity and fracture morphologies during superplastic deformation of a commercial TC6 titanium alloy

M. Q. Li; A. M. Xiong; Z. Q. Zhang

doi:10.4028/0-87849-960-1.2961

Superplasticity and fracture morphologies during superplastic deformation of a commercial TC6 titanium alloy

M. Q. Li, A. M. Xiong, Z. Q. Zhang

材料学院

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 会议文章 › 同行评审

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摘要

Deformation behavior of a commercial TC6 titanium alloy at elevated temperature has been investigated using isothermal tension tests. By SEM, the fracture mechanism has been analyzed through the morphologies of failure surface. The superplasticity of the TC6 titanium alloy improves with an increase of deformation temperature and a decrease of initial strain rate. The optimal process parameters are the combination of 950°c and 0.001s^-1, and the limit elongation could reach 267%. The tough fracture is main pattern in the failure of the TC6 titanium alloy. The fracture begins at the boundaries between the matrix and the impurity, and it presents the much more tough fracture characteristic with an increase of deformation temperature and a decrease of initial strain rate.

源语言	英语
页（从-至）	2961-2964
页数	4
期刊	Materials Science Forum
卷	475-479
期	IV
DOI	https://doi.org/10.4028/0-87849-960-1.2961
出版状态	已出版 - 2005
活动	PRICM 5: The Fifth Pacific Rim International Conference on Advanced Materials and Processing - Beijing, 中国期限: 2 11月 2004 → 5 11月 2004

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title = "Superplasticity and fracture morphologies during superplastic deformation of a commercial TC6 titanium alloy",

abstract = "Deformation behavior of a commercial TC6 titanium alloy at elevated temperature has been investigated using isothermal tension tests. By SEM, the fracture mechanism has been analyzed through the morphologies of failure surface. The superplasticity of the TC6 titanium alloy improves with an increase of deformation temperature and a decrease of initial strain rate. The optimal process parameters are the combination of 950°c and 0.001s-1, and the limit elongation could reach 267%. The tough fracture is main pattern in the failure of the TC6 titanium alloy. The fracture begins at the boundaries between the matrix and the impurity, and it presents the much more tough fracture characteristic with an increase of deformation temperature and a decrease of initial strain rate.",

keywords = "Fracture morphologies, Limit elongation, Superplastic deformation, Titanium alloy",

author = "Li, {M. Q.} and Xiong, {A. M.} and Zhang, {Z. Q.}",

year = "2005",

doi = "10.4028/0-87849-960-1.2961",

language = "英语",

volume = "475-479",

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journal = "Materials Science Forum",

issn = "0255-5476",

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note = "PRICM 5: The Fifth Pacific Rim International Conference on Advanced Materials and Processing ; Conference date: 02-11-2004 Through 05-11-2004",

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TY - JOUR

T1 - Superplasticity and fracture morphologies during superplastic deformation of a commercial TC6 titanium alloy

AU - Li, M. Q.

AU - Xiong, A. M.

AU - Zhang, Z. Q.

PY - 2005

Y1 - 2005

N2 - Deformation behavior of a commercial TC6 titanium alloy at elevated temperature has been investigated using isothermal tension tests. By SEM, the fracture mechanism has been analyzed through the morphologies of failure surface. The superplasticity of the TC6 titanium alloy improves with an increase of deformation temperature and a decrease of initial strain rate. The optimal process parameters are the combination of 950°c and 0.001s-1, and the limit elongation could reach 267%. The tough fracture is main pattern in the failure of the TC6 titanium alloy. The fracture begins at the boundaries between the matrix and the impurity, and it presents the much more tough fracture characteristic with an increase of deformation temperature and a decrease of initial strain rate.

AB - Deformation behavior of a commercial TC6 titanium alloy at elevated temperature has been investigated using isothermal tension tests. By SEM, the fracture mechanism has been analyzed through the morphologies of failure surface. The superplasticity of the TC6 titanium alloy improves with an increase of deformation temperature and a decrease of initial strain rate. The optimal process parameters are the combination of 950°c and 0.001s-1, and the limit elongation could reach 267%. The tough fracture is main pattern in the failure of the TC6 titanium alloy. The fracture begins at the boundaries between the matrix and the impurity, and it presents the much more tough fracture characteristic with an increase of deformation temperature and a decrease of initial strain rate.

KW - Fracture morphologies

KW - Limit elongation

KW - Superplastic deformation

KW - Titanium alloy

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DO - 10.4028/0-87849-960-1.2961

M3 - 会议文章

AN - SCOPUS:17144430145

SN - 0255-5476

VL - 475-479

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EP - 2964

JO - Materials Science Forum

JF - Materials Science Forum

IS - IV

T2 - PRICM 5: The Fifth Pacific Rim International Conference on Advanced Materials and Processing

Y2 - 2 November 2004 through 5 November 2004

ER -

Superplasticity and fracture morphologies during superplastic deformation of a commercial TC6 titanium alloy

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