Effect of a bimodal grain structure on corrosion behavior and tensile properties of low-alloyed Mg–1Bi–1Zn–1Ag alloy

Effect of a bimodal grain structure on corrosion behavior and tensile properties of low-alloyed Mg–1Bi–1Zn–1Ag alloy

A novel low-alloyed Mg–1Bi–1Zn–1Ag alloy system was developed by extrusion at different extrusion ratios to achieve a bimodal grain structure. The dependence of the corrosion behavior and tensile properties on the grain structure was analyzed. The sample obtained at the extrusion ratio of 9 (BZQ111-...

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Bibliographic Details
Main Authors: Ming-ya Zhang, Feng Li, Zhen-yu Guo, Hong-xia Wang, Li-fei Wang, Hang Li, Hui Yu, Wei-li Cheng
Format: Article
Language:English
Published: Elsevier 2023-05-01
Series:Journal of Materials Research and Technology
Subjects:
Mg–Bi-based alloy
Microstructural characteristics
Corrosion behaviors
Tensile properties
Online Access:http://www.sciencedirect.com/science/article/pii/S2238785423011316
Description
Summary:A novel low-alloyed Mg–1Bi–1Zn–1Ag alloy system was developed by extrusion at different extrusion ratios to achieve a bimodal grain structure. The dependence of the corrosion behavior and tensile properties on the grain structure was analyzed. The sample obtained at the extrusion ratio of 9 (BZQ111-R9) displayed a bimodal grain microstructure. In addition, its dominant corrosion mode was filiform with intergranular corrosion at a low corrosion rate of 0.06 mm/a. An improved synergy between strength (tensile yield strength of 207.1 MPa) and ductility (elongation of 35.9%) was realized in the BZQ111-R9 sample. Thus, the proposed approach can develop low-alloyed Mg–Bi-based alloys with excellent synergy between the corrosion resistance and tensile properties based on the control of the bimodal grain structure.
ISSN:2238-7854

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