Thermal stability of deformation twins in cryogenic rolled CP-Ti

Cai Chen; Dongsheng Han; Yutao Song; Mingchuan Wang; Yusheng Li; Shun Xu

doi:10.1016/j.matchar.2022.112587

Thermal stability of deformation twins in cryogenic rolled CP-Ti

Cai Chen^*, Dongsheng Han, Yutao Song, Mingchuan Wang, Yusheng Li, Shun Xu

^*此作品的通讯作者

材料学院

Nanjing University of Science and Technology

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

In this work, abundant types of deformation twins were introduced in CP-Ti by cryogenic rolling. The stability of the twins under the annealing process and their contribution to texture were investigated. The EBSD results revealed that {112¯2} compression twins as the primary twin result in the texture with c-axis near ND and RD, while {101¯2}and {112¯1} tension twins as the primary twin induce the texture with c-axis nearly parallel to TD. Besides, the asymmetric texture intensity of the as-received sheet will be improved by the reorientation induced by deformation twins during the annealing process. Most twins show good thermal stability during the annealing process at 550 °C, however, all twins rapidly disappeared at 650 °C. The {101¯2} twins are the most thermally stable during annealing treatment at 600 °C. After full recrystallization, the texture induced by matrix reorientation maintains, while the texture associated with primary twins recovers.

源语言	英语
文章编号	112587
期刊	Materials Characterization
卷	196
DOI	https://doi.org/10.1016/j.matchar.2022.112587
出版状态	已出版 - 2月 2023

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Chen, C., Han, D., Song, Y., Wang, M., Li, Y., & Xu, S. (2023). Thermal stability of deformation twins in cryogenic rolled CP-Ti. Materials Characterization, 196, 文章 112587. https://doi.org/10.1016/j.matchar.2022.112587

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title = "Thermal stability of deformation twins in cryogenic rolled CP-Ti",

abstract = "In this work, abundant types of deformation twins were introduced in CP-Ti by cryogenic rolling. The stability of the twins under the annealing process and their contribution to texture were investigated. The EBSD results revealed that {112¯2} compression twins as the primary twin result in the texture with c-axis near ND and RD, while {101¯2}and {112¯1} tension twins as the primary twin induce the texture with c-axis nearly parallel to TD. Besides, the asymmetric texture intensity of the as-received sheet will be improved by the reorientation induced by deformation twins during the annealing process. Most twins show good thermal stability during the annealing process at 550 °C, however, all twins rapidly disappeared at 650 °C. The {101¯2} twins are the most thermally stable during annealing treatment at 600 °C. After full recrystallization, the texture induced by matrix reorientation maintains, while the texture associated with primary twins recovers.",

keywords = "Cryogenic rolling, Crystallographic texture, Deformation twin, Thermal stability of twin, Titanium, Twin boundary interaction",

author = "Cai Chen and Dongsheng Han and Yutao Song and Mingchuan Wang and Yusheng Li and Shun Xu",

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AU - Chen, Cai

AU - Han, Dongsheng

AU - Song, Yutao

AU - Wang, Mingchuan

AU - Li, Yusheng

AU - Xu, Shun

PY - 2023/2

Y1 - 2023/2

N2 - In this work, abundant types of deformation twins were introduced in CP-Ti by cryogenic rolling. The stability of the twins under the annealing process and their contribution to texture were investigated. The EBSD results revealed that {112¯2} compression twins as the primary twin result in the texture with c-axis near ND and RD, while {101¯2}and {112¯1} tension twins as the primary twin induce the texture with c-axis nearly parallel to TD. Besides, the asymmetric texture intensity of the as-received sheet will be improved by the reorientation induced by deformation twins during the annealing process. Most twins show good thermal stability during the annealing process at 550 °C, however, all twins rapidly disappeared at 650 °C. The {101¯2} twins are the most thermally stable during annealing treatment at 600 °C. After full recrystallization, the texture induced by matrix reorientation maintains, while the texture associated with primary twins recovers.

AB - In this work, abundant types of deformation twins were introduced in CP-Ti by cryogenic rolling. The stability of the twins under the annealing process and their contribution to texture were investigated. The EBSD results revealed that {112¯2} compression twins as the primary twin result in the texture with c-axis near ND and RD, while {101¯2}and {112¯1} tension twins as the primary twin induce the texture with c-axis nearly parallel to TD. Besides, the asymmetric texture intensity of the as-received sheet will be improved by the reorientation induced by deformation twins during the annealing process. Most twins show good thermal stability during the annealing process at 550 °C, however, all twins rapidly disappeared at 650 °C. The {101¯2} twins are the most thermally stable during annealing treatment at 600 °C. After full recrystallization, the texture induced by matrix reorientation maintains, while the texture associated with primary twins recovers.

KW - Cryogenic rolling

KW - Crystallographic texture

KW - Deformation twin

KW - Thermal stability of twin

KW - Titanium

KW - Twin boundary interaction

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Thermal stability of deformation twins in cryogenic rolled CP-Ti

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