熔体温度对Pb-Ag合金组织和电化学性能的影响  被引量:1

Effects of Melt Temperature on Electrochemical Performance and Microstructure of Pb-Ag Alloy

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作  者:张俊[1] 竺培显[1,2] 周生刚[1] 曹勇[1] 张喆[1] 

机构地区:[1]昆明理工大学材料科学与工程学院,云南昆明650093 [2]云南大泽电极科技有限公司,云南昆明650093

出  处:《热加工工艺》2015年第3期1-4,共4页Hot Working Technology

基  金:国家自然科学基金项目(51074082;51264025;51201080);云南省应用基础研究计划项目(KKSY201251086)

摘  要:采用恒定的超声功率、频率和施振深度,在不同温度区间对Pb-Ag合金熔体施加超声振动,探讨功率超声对Pb-Ag合金的显微组织及电化学性能的影响。结果表明,随着熔体温度的升高,超声空化效应和声流作用发挥的越充分,过低或过高的熔体温度因超声处理不充分或熔体内部热效应,均导致晶粒粗大。仅在370℃保温条件下,超声波处理能使组织显著细化均化,电化学性能提升,电阻率下降12.95%,极化电位负移290 m V,槽电压下降1.77%,达到了一定的节能降耗的目的,为今后制备高性能低能耗的Pb-Ag合金电极奠定基础。The supersonic vibration of Pb-Ag alloy melt was added by using ultrasonnd constant power, frequency and vibration depth in ranges of different temperatures. The effects of power ultrasound on microstructure and electrochemical performance of Pb-Ag alloy were discussed. The results show that ultrasonic cavitation effect and acoustic streaming effect are more obvious, with the increase of melt temperature; too low or high melt temperature will lead to the grains coarsening because of insufficient ultrasonic treatment or inner heating effects. Under the condition of thermal insulation at only 370℃ the ultrasonic treatment can make the microstructure remarkably refined and homogenized, and the electrochemical performance improves. The resistivity decreases by 12.95%, the polarization potential shifts by 290 mV negatively and cell voltage reduces by 1.77%. The energy-conserving goal is achieved, which lays the foundation for the high performance and low-energy of the future Pb-Ag alloy electrode.

关 键 词:功率超声 熔体温度 Pb-Ag合金 显微组织 电化学性能 

分 类 号:TG243[金属学及工艺—铸造]

 

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