Effect of multi-pass caliber rolling on dilute extruded Mg-Bi-Ca alloy

Shuaiju Meng; Hui Yu; Haisheng Han; Jianhang Feng; Lixin Huang; Lishan Dong; Xiaolong Nan; Zhongjie Li; Sung Hyuk Park; Weimin Zhao

doi:10.3390/met10030332

Effect of multi-pass caliber rolling on dilute extruded Mg-Bi-Ca alloy

Shuaiju Meng
, Hui Yu
, Haisheng Han
, Jianhang Feng
, Lixin Huang
, Lishan Dong
, Xiaolong Nan
, Zhongjie Li
, Sung Hyuk Park
, Weimin Zhao

Hebei University of Technology
Korea Institute of Materials Science
Tianjin Key Laboratory of Materials Laminating Fabrication and Interfacial Controlling Technology
CITIC Dicastal Co., Ltd
China Academy of Engineering Physics
Shanghai Jiao Tong University

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

4 Scopus citations

Abstract

A Mg-1.32Bi-0.72Ca (BX11) alloy having bimodal grain structure was successfully prepared by a novel processing route of combining extrusion and three-pass caliber rolling. The first extruded and then caliber-rolled (E-CRed) alloy demonstrates a necklace-like grain structure with ultrafine grains formed around the microscale deformed grains, which is remarkably different from the uniform microstructure of the as-extruded alloy. In addition, the E-CRed BX11 alloy exhibits strong basal texture which is mainly original from the microscale deformed grains. Furthermore, the E-CRed BX11 alloy demonstrates excellent comprehensive mechanical properties, with an ultra-high yield strength of 351 MPa and a good elongation to failure of 13.2%. The significant strength improvement can be mainly attributed to the significant grain refinement and much stronger basal texture compared with the as-extruded sample.

Original language	English
Article number	332
Journal	Metals
Volume	10
Issue number	3
DOIs	https://doi.org/10.3390/met10030332
State	Published - Mar 2020

Keywords

Bimodal microstructure
Mechanical property
Mg-Bi-Ca

Access to Document

10.3390/met10030332

Cite this

@article{d57941a094a249fa83081eb03f3572ea,

title = "Effect of multi-pass caliber rolling on dilute extruded Mg-Bi-Ca alloy",

abstract = "A Mg-1.32Bi-0.72Ca (BX11) alloy having bimodal grain structure was successfully prepared by a novel processing route of combining extrusion and three-pass caliber rolling. The first extruded and then caliber-rolled (E-CRed) alloy demonstrates a necklace-like grain structure with ultrafine grains formed around the microscale deformed grains, which is remarkably different from the uniform microstructure of the as-extruded alloy. In addition, the E-CRed BX11 alloy exhibits strong basal texture which is mainly original from the microscale deformed grains. Furthermore, the E-CRed BX11 alloy demonstrates excellent comprehensive mechanical properties, with an ultra-high yield strength of 351 MPa and a good elongation to failure of 13.2\%. The significant strength improvement can be mainly attributed to the significant grain refinement and much stronger basal texture compared with the as-extruded sample.",

keywords = "Bimodal microstructure, Mechanical property, Mg-Bi-Ca",

author = "Shuaiju Meng and Hui Yu and Haisheng Han and Jianhang Feng and Lixin Huang and Lishan Dong and Xiaolong Nan and Zhongjie Li and Park, \{Sung Hyuk\} and Weimin Zhao",

note = "Publisher Copyright: {\textcopyright} 2020 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2020",

month = mar,

doi = "10.3390/met10030332",

language = "English",

volume = "10",

journal = "Metals",

issn = "2075-4701",

publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",

number = "3",

}

TY - JOUR

T1 - Effect of multi-pass caliber rolling on dilute extruded Mg-Bi-Ca alloy

AU - Meng, Shuaiju

AU - Yu, Hui

AU - Han, Haisheng

AU - Feng, Jianhang

AU - Huang, Lixin

AU - Dong, Lishan

AU - Nan, Xiaolong

AU - Li, Zhongjie

AU - Park, Sung Hyuk

AU - Zhao, Weimin

PY - 2020/3

Y1 - 2020/3

N2 - A Mg-1.32Bi-0.72Ca (BX11) alloy having bimodal grain structure was successfully prepared by a novel processing route of combining extrusion and three-pass caliber rolling. The first extruded and then caliber-rolled (E-CRed) alloy demonstrates a necklace-like grain structure with ultrafine grains formed around the microscale deformed grains, which is remarkably different from the uniform microstructure of the as-extruded alloy. In addition, the E-CRed BX11 alloy exhibits strong basal texture which is mainly original from the microscale deformed grains. Furthermore, the E-CRed BX11 alloy demonstrates excellent comprehensive mechanical properties, with an ultra-high yield strength of 351 MPa and a good elongation to failure of 13.2%. The significant strength improvement can be mainly attributed to the significant grain refinement and much stronger basal texture compared with the as-extruded sample.

AB - A Mg-1.32Bi-0.72Ca (BX11) alloy having bimodal grain structure was successfully prepared by a novel processing route of combining extrusion and three-pass caliber rolling. The first extruded and then caliber-rolled (E-CRed) alloy demonstrates a necklace-like grain structure with ultrafine grains formed around the microscale deformed grains, which is remarkably different from the uniform microstructure of the as-extruded alloy. In addition, the E-CRed BX11 alloy exhibits strong basal texture which is mainly original from the microscale deformed grains. Furthermore, the E-CRed BX11 alloy demonstrates excellent comprehensive mechanical properties, with an ultra-high yield strength of 351 MPa and a good elongation to failure of 13.2%. The significant strength improvement can be mainly attributed to the significant grain refinement and much stronger basal texture compared with the as-extruded sample.

KW - Bimodal microstructure

KW - Mechanical property

KW - Mg-Bi-Ca

UR - https://www.scopus.com/pages/publications/85081223524

U2 - 10.3390/met10030332

DO - 10.3390/met10030332

M3 - Article

AN - SCOPUS:85081223524

SN - 2075-4701

VL - 10

JO - Metals

JF - Metals

IS - 3

M1 - 332

ER -

Effect of multi-pass caliber rolling on dilute extruded Mg-Bi-Ca alloy

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this