摘要
对合金丝材进行了不同温度和时间的固溶处理,探究了固溶参数对晶粒尺寸、电阻率、电阻温度系数及屈服强度的影响规律,对比了固溶态和时效态合金的性能差异。结果表明:提升固溶温度或延长保温时间,均使电阻率升高、电阻温度系数下降,有利于改善合金的电学性能;合金晶界移动激活能为674.25 k J/mol,晶粒生长动力学方程为:■;屈服强度与晶粒尺寸存在关系式:Rp0.2=341.19+354.64Dt-0.5;通过950℃×7.5 min+430℃×0.5 h固溶时效处理后,合金的屈服强度为445 MPa,电阻率为132.2μΩ·cm,电阻温度系数为2.2×10^-6℃-1,满足制备精密电阻元件的要求。
The effects of solution temperature and time on the grain size,resistivity,TCR and yield strength of the precision resistance alloy wire were examined.Also,the properties of as-quenched and as-aged alloys were compared.The results show that the resistivity increases with the increase of solution temperature and holding time,while the TCR decreases.Both the variations are useful to improve the electrical properties of the alloy.The activation energy of grain boundary migration is 674.25 kJ/mol,and the comprehensive dynamic equation of grain growth is as follow:■.The relationship between yield strength and grain size of this alloy is deduced to be Rp0.2=341.19+354.64Dt-0.5.After solid solution at 950℃for 7.5 min and aging at 430℃for 0.5 h,the yield strength,resistivity and TCR are 445 MPa,132.2μΩ·cm and 2.2×10^-6℃-1,respectively.And thus the alloy is suitable to be used as precision resistance component.
作者
喻文新
王勇
杨贤军
徐永红
吴达
王锋鸿
Yu Wenxin;Wang Yong;Yang Xianjun;Xu Yonghong;Wu Da;Wang Fenghong(Chongqing Chuanyi Automation Co.,Ltd.,Chongqing 400702,China;College of Materials Science&Engineering,Chongqing University,Chongqing 400045,China)
出处
《金属热处理》
CAS
CSCD
北大核心
2020年第5期62-68,共7页
Heat Treatment of Metals
基金
国家重点研发计划(2016YFB0402600)。
关键词
固溶工艺
精密电阻合金
电阻率
电阻温度系数
晶粒尺寸
屈服强度
solid solution process
precision resistance alloy
resistivity
temperature coefficient of resistance
grain size
yield strength
