Ti555211合金双态组织拉伸行为的SEM原位观察

Zhen An; Tianqi Li; Yuanyuan Lu; Xu Ding; Hui Xie; Xiaonan Mao; Pingxiang Zhang; Jinshan Li

Ti555211合金双态组织拉伸行为的SEM原位观察

Zhen An, Tianqi Li, Yuanyuan Lu, Xu Ding, Hui Xie, Xiaonan Mao, Pingxiang Zhang, Jinshan Li

材料学院

科研成果: 期刊稿件 › 文章 › 同行评审

2 引用（Scopus）

摘要

The tensile deformation and fracture behavior of the Ti555211 alloy with dual structure were investigated using in-situ SEM technology. Results show that slip bands are given priority within the primary α phase along with angle of 45^o with the tensile loading direction for the Ti555211 alloy with initial dual structure. As the crack propagates, the density of the slip bands increases. Moreover, the crack growth is dominated by interconnected microcavities for the alloy with initial dual structure. The Ti555211 alloy with initial dual structure and lamellar structure show different fracture morphologies. For the alloy with initial dual structure, there display a small flat surface caused by shear slip, but no obvious shear lip occurs in fracture. The deformation and fracture behavior of the near-β titanium alloy of Ti555211 can be tracked by the SEM in-situ tensile test method in real time. The research results of this method have great theoretical value and engineering significance.

投稿的翻译标题	In-situ SEM Observations of Tensile Deformation Behavior of Ti555211 Alloy with Dual Structure
源语言	繁体中文
页（从-至）	1584-1590
页数	7
期刊	Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering
卷	48
期	5
出版状态	已出版 - 1 5月 2019

关键词

Dual structure
In-situ SEM observations
Near β titanium
Ti555211 titanium alloy

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链接到 Scopus 的出版物

引用此

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title = "Ti555211合金双态组织拉伸行为的SEM原位观察",

abstract = "The tensile deformation and fracture behavior of the Ti555211 alloy with dual structure were investigated using in-situ SEM technology. Results show that slip bands are given priority within the primary α phase along with angle of 45o with the tensile loading direction for the Ti555211 alloy with initial dual structure. As the crack propagates, the density of the slip bands increases. Moreover, the crack growth is dominated by interconnected microcavities for the alloy with initial dual structure. The Ti555211 alloy with initial dual structure and lamellar structure show different fracture morphologies. For the alloy with initial dual structure, there display a small flat surface caused by shear slip, but no obvious shear lip occurs in fracture. The deformation and fracture behavior of the near-β titanium alloy of Ti555211 can be tracked by the SEM in-situ tensile test method in real time. The research results of this method have great theoretical value and engineering significance.",

keywords = "Dual structure, In-situ SEM observations, Near β titanium, Ti555211 titanium alloy",

author = "Zhen An and Tianqi Li and Yuanyuan Lu and Xu Ding and Hui Xie and Xiaonan Mao and Pingxiang Zhang and Jinshan Li",

year = "2019",

month = may,

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T1 - Ti555211合金双态组织拉伸行为的SEM原位观察

AU - An, Zhen

AU - Li, Tianqi

AU - Lu, Yuanyuan

AU - Ding, Xu

AU - Xie, Hui

AU - Mao, Xiaonan

AU - Zhang, Pingxiang

AU - Li, Jinshan

PY - 2019/5/1

Y1 - 2019/5/1

N2 - The tensile deformation and fracture behavior of the Ti555211 alloy with dual structure were investigated using in-situ SEM technology. Results show that slip bands are given priority within the primary α phase along with angle of 45o with the tensile loading direction for the Ti555211 alloy with initial dual structure. As the crack propagates, the density of the slip bands increases. Moreover, the crack growth is dominated by interconnected microcavities for the alloy with initial dual structure. The Ti555211 alloy with initial dual structure and lamellar structure show different fracture morphologies. For the alloy with initial dual structure, there display a small flat surface caused by shear slip, but no obvious shear lip occurs in fracture. The deformation and fracture behavior of the near-β titanium alloy of Ti555211 can be tracked by the SEM in-situ tensile test method in real time. The research results of this method have great theoretical value and engineering significance.

AB - The tensile deformation and fracture behavior of the Ti555211 alloy with dual structure were investigated using in-situ SEM technology. Results show that slip bands are given priority within the primary α phase along with angle of 45o with the tensile loading direction for the Ti555211 alloy with initial dual structure. As the crack propagates, the density of the slip bands increases. Moreover, the crack growth is dominated by interconnected microcavities for the alloy with initial dual structure. The Ti555211 alloy with initial dual structure and lamellar structure show different fracture morphologies. For the alloy with initial dual structure, there display a small flat surface caused by shear slip, but no obvious shear lip occurs in fracture. The deformation and fracture behavior of the near-β titanium alloy of Ti555211 can be tracked by the SEM in-situ tensile test method in real time. The research results of this method have great theoretical value and engineering significance.

KW - Dual structure

KW - In-situ SEM observations

KW - Near β titanium

KW - Ti555211 titanium alloy

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JO - Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering

JF - Xiyou Jinshu Cailiao Yu Gongcheng/Rare Metal Materials and Engineering

IS - 5

ER -

Ti555211合金双态组织拉伸行为的SEM原位观察

摘要

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