Effect of Sn content on strain hardening behavior of as-extruded Mg-Sn alloys

The effects of Sn content on strain hardening behavior of as-extruded Mg-xSn (x = 1.3, 2.4, 3.6 and 4.7wt%) binary alloys were investigated by uniaxial tensile tests at room temperature. Strain hardening rate, strain hardening exponent and hardening capacity were obtained from the true plastic stres...

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Published inMaterials science & engineering. A, Structural materials : properties, microstructure and processing Vol. 713; pp. 244 - 252
Main Authors Zhao, Chaoyue, Chen, Xianhua, Pan, Fusheng, Gao, Shangyu, Zhao, Di, Liu, Xiaofang
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 24.01.2018
Elsevier BV
Subjects
Alloys
Binary alloys
Crystal dislocations
Dislocation
Elongation
Extrusion
Grain orientation
Grain size
Grain size distribution
Hardening rate
Hot extrusion
Magnesium base alloys
Mg–Sn alloy
Strain hardening
Stress-strain curves
Stress-strain relationships
Tensile strength
Tensile tests
Tin
Grain size
Mg–Sn alloy
Grain orientation
Strain hardening
Dislocation
Online AccessGet full text
ISSN0921-5093
1873-4936
DOI10.1016/j.msea.2017.12.074

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Abstract The effects of Sn content on strain hardening behavior of as-extruded Mg-xSn (x = 1.3, 2.4, 3.6 and 4.7wt%) binary alloys were investigated by uniaxial tensile tests at room temperature. Strain hardening rate, strain hardening exponent and hardening capacity were obtained from the true plastic stress-strain curves. After hot extrusion, the as-extruded Mg-Sn alloys are mainly composed of α-Mg matrix and second phase Mg2Sn, which only exists in Mg-3Sn and Mg-4Sn. Average grain size decreases from 15.6μm to 3.6µm with Sn content increases from 1.3 to 4.7wt%. The experimental results show that Sn content decreases strain hardening ability of as-extruded Mg-Sn alloys, but gives rise to an obvious elevation in tensile strength, yield strength and elongation of them. With increasing Sn content, strain hardening rate decreases from 3527MPa to 1211MPa at (σ-σ0.2) = 50MPa, strain hardening exponent decreases from 0.21 to 0.13 and hardening capacity decreases from 1.66 to 0.63. The variation in strain hardening behavior of Mg-Sn alloys with Sn content is discussed in terms of the influences of grain size and distribution of grain orientation.
AbstractList The effects of Sn content on strain hardening behavior of as-extruded Mg-xSn (x = 1.3, 2.4, 3.6 and 4.7 wt%) binary alloys were investigated by uniaxial tensile tests at room temperature. Strain hardening rate, strain hardening exponent and hardening capacity were obtained from the true plastic stress-strain curves. After hot extrusion, the as-extruded Mg-Sn alloys are mainly composed of α-Mg matrix and second phase Mg2Sn, which only exists in Mg-3Sn and Mg-4Sn. Average grain size decreases from 15.6 µm to 3.6 µm with Sn content increases from 1.3 to 4.7 wt%. The experimental results show that Sn content decreases strain hardening ability of as-extruded Mg-Sn alloys, but gives rise to an obvious elevation in tensile strength, yield strength and elongation of them. With increasing Sn content, strain hardening rate decreases from 3527 MPa to 1211 MPa at (σ-σ0.2) = 50 MPa, strain hardening exponent decreases from 0.21 to 0.13 and hardening capacity decreases from 1.66 to 0.63. The variation in strain hardening behavior of Mg-Sn alloys with Sn content is discussed in terms of the influences of grain size and distribution of grain orientation.
The effects of Sn content on strain hardening behavior of as-extruded Mg-xSn (x = 1.3, 2.4, 3.6 and 4.7wt%) binary alloys were investigated by uniaxial tensile tests at room temperature. Strain hardening rate, strain hardening exponent and hardening capacity were obtained from the true plastic stress-strain curves. After hot extrusion, the as-extruded Mg-Sn alloys are mainly composed of α-Mg matrix and second phase Mg2Sn, which only exists in Mg-3Sn and Mg-4Sn. Average grain size decreases from 15.6μm to 3.6µm with Sn content increases from 1.3 to 4.7wt%. The experimental results show that Sn content decreases strain hardening ability of as-extruded Mg-Sn alloys, but gives rise to an obvious elevation in tensile strength, yield strength and elongation of them. With increasing Sn content, strain hardening rate decreases from 3527MPa to 1211MPa at (σ-σ0.2) = 50MPa, strain hardening exponent decreases from 0.21 to 0.13 and hardening capacity decreases from 1.66 to 0.63. The variation in strain hardening behavior of Mg-Sn alloys with Sn content is discussed in terms of the influences of grain size and distribution of grain orientation.
Author Liu, Xiaofang
Pan, Fusheng
Gao, Shangyu
Zhao, Di
Zhao, Chaoyue
Chen, Xianhua
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  surname: Liu
  fullname: Liu, Xiaofang
  organization: College of Materials Science and Engineering, Chongqing University, Chongqing 400045, PR China
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Keywords Grain size
Mg–Sn alloy
Grain orientation
Strain hardening
Dislocation
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Snippet The effects of Sn content on strain hardening behavior of as-extruded Mg-xSn (x = 1.3, 2.4, 3.6 and 4.7wt%) binary alloys were investigated by uniaxial tensile...
The effects of Sn content on strain hardening behavior of as-extruded Mg-xSn (x = 1.3, 2.4, 3.6 and 4.7 wt%) binary alloys were investigated by uniaxial...
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SubjectTerms Alloys
Binary alloys
Crystal dislocations
Dislocation
Elongation
Extrusion
Grain orientation
Grain size
Grain size distribution
Hardening rate
Hot extrusion
Magnesium base alloys
Mg–Sn alloy
Strain hardening
Stress-strain curves
Stress-strain relationships
Tensile strength
Tensile tests
Tin
Title Effect of Sn content on strain hardening behavior of as-extruded Mg-Sn alloys
URI https://dx.doi.org/10.1016/j.msea.2017.12.074
https://www.proquest.com/docview/2067368098
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