Thermal Stability and Microstructure Evolution of Wrought ZA16 Alloy

Sun Wensheng; Zhang Jinlin

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Thermal Stability and Microstructure Evolution of Wrought ZA16 Alloy
Vol. 31, Issue 8, Pages: 775-777(2011)
Published： 2011 ，
DOI：

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[1]孙文声,张锦麟.ZA16变形锌合金的热稳定性和组织演化[J].特种铸造及有色合金,2011,31(08):775-777.

Sun Wensheng, Zhang Jinlin. Thermal Stability and Microstructure Evolution of Wrought ZA16 Alloy. [J]. Special Casting & Nonferrous Alloys 31(8):775-777(2011)
[1]孙文声,张锦麟.ZA16变形锌合金的热稳定性和组织演化[J].特种铸造及有色合金,2011,31(08):775-777. DOI：

Sun Wensheng, Zhang Jinlin. Thermal Stability and Microstructure Evolution of Wrought ZA16 Alloy. [J]. Special Casting & Nonferrous Alloys 31(8):775-777(2011) DOI：

摘要

采用热分析方法

研究了挤压变形ZA16合金不同加工状态下共析转变的表观激活能。结合热处理技术

研究了变形ZA16合金的热稳定性与组织演化的关系。随加工量的增加

材料的激活能降低

热稳定性变弱。铸态合金退火后的硬度降低

而变形合金退火后的硬度明显升高。合金变形过程中呈现的加工软化、退火硬化的现象

是由于加工过程导致了粗晶的碎化

使得材料能够容许更大的变形量。退火后沿加工方向的析出组织

破坏了发生协调变形所需的球化组织在受力过程中的晶粒转动

导致退火硬化现象的发生。

Abstract

Apparent activation energy of eutectoid transformation in wrought ZA16 alloy was examined by thermal analysis with temperature-increment during squeezing casting.The relationship between thermal stability and microstructure evolution of the alloy after heat treatment was described.The activation energy and thermal stability of the alloy are decreased with the increase of deformation rate.After annealing treatment

the hardness of the as-cast alloy is reduced

and that of wrought alloy is obviously increased.The work-softening and annealing-hardening are observed in the deformed ZA16 alloy resulted from the broken coarsened grain during processing which allow more deformation rate to the material.Precipitated structure along the working direction after annealing treatment restrains the grain rotary in spheroidized structure for coordinated deformation

which is responsible for the annealed-hardening.