Effects of Ti addition on microstructures of melt-spun CuCr ribbons 被引量：2

Effects of Ti addition on microstructures of melt-spun CuCr ribbons

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摘要 The microstructure and resistivity of melt-spun CuCrTi ribbon were studied.The results reveal that the maximal size of theprimary Cr particles in the microstructures is below 100 nm by 0.65%-3.8%Ti(mole fraction)addition and the resistivity of annealedribbons of 0.65%-1.3%Ti addition can meet the need of the contact materials used by the medium-voltage vacuum interrupters.Bycontrasting the melt-spun microstructures to the annealed microstructures,the primary Cr particles do not grow up quickly in theannealing process.The X-ray diffraction studies reveal that alloying increases the amount of the solute in Cu and Cr phases andresults in the increase of resistivity.By the thermodynamic analysis,adding Ti to CuCr29 alloys increases the critical supercooling ofthe liquid/solid transformation,which makes the critical radius of nucleation decrease and the rate of nucleation increase.As a result,the microstructure of CuCr ribbon can be further refined. The microstructure and resistivity ofmelt-sptm CuCrTi ribbon were studied. The results reveal that the maximal size of the primary Cr particles in the microstructures is below 100 nm by 0.65%-3.8%Ti （mole fraction） addition and the resistivity of annealed ribbons of 0.65%-1.3%Ti addition can meet the need of the contact materials used by the medium-voltage vacuum interrupters. By contrasting the melt-spun microstructures to the annealed microstructures, the primary Cr particles do not grow up quickly in the annealing process. The X-ray diffraction studies reveal that alloying increases the amount of the solute in Cu and Cr phases and results in the increase of resistivity. By the thermodynamic analysis, adding Ti to CuCr29 alloys increases the critical supercooling of the liquid/solid transformation, which makes the critical radius of nucleation decrease and the rate of nucleation increase. As a result, the microstructure of CuCr ribbon can be further refined.

作者王宥宏宋晓平孙占波周轩郭娟

机构地区 School of Science

出处《中国有色金属学会会刊：英文版》 EI CSCD 2007年第1期72-76,共5页 Transactions of Nonferrous Metals Society of China

基金 Project(50371066)supported by the National Natural Science Foundation of China

关键词钛微观结构合金熔体纺丝热力学抗性 CuCr alloys melt spinning thermodynamic contact resistivity

分类号 TG113.1 [金属学及工艺—物理冶金]

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中国有色金属学会会刊：英文版

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