Application of Lanthanum in High Strength and High Conductivity Copper Alloys 被引量：22

Application of Lanthanum in High Strength and High Conductivity Copper Alloys

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摘要 China is quite poor in argent resource. Roughly 80% of this industrial argent is imported every year. In order to improve the situation, we took advantage of rare earth (RE) mineral resource and successfully developed the non-argent Lanthanum-tellurium-copper alloy as a substitute for industry argent-copper. In our research, we were able to successfully apply rare earth lanthanum to copper alloy. The defects as porosity, inclusion, etc. originating from nonvacuum melting processing were controlled. Fine grain was obtained. Meanwhile, the comprehensive properties of the copper alloy, such as strength, conductivity and thermal conductivity were improved. The research results in increasing conductivity and thermal conductivity by 5% and 15%, respectively, while the tensile strength is increased by 6% higher than Ag-Cu alloy. The anti-electric corrosion property is good, and there is no argent-cadmium steam population originating from the electric arc effect. The addition of lanthanum further reduces the content of oxygen and hydrogen.The optimum quantity of the addition of RE lanthanum in the copper alloy is 0.010%～0.020%. China is quite poor in argent resource. Roughly 80% of this industrial argent is imported every year. In order to improve the situation, we took advantage of rare earth (RE) mineral resource and successfully developed the non-argent Lanthanum-tellurium-copper alloy as a substitute for industry argent-copper. In our research, we were able to successfully apply rare earth lanthanum to copper alloy. The defects as porosity, inclusion, etc. originating from nonvacuum melting processing were controlled. Fine grain was obtained. Meanwhile, the comprehensive properties of the copper alloy, such as strength, conductivity and thermal conductivity were improved. The research results in increasing conductivity and thermal conductivity by 5% and 15%, respectively, while the tensile strength is increased by 6% higher than Ag-Cu alloy. The anti-electric corrosion property is good, and there is no argent-cadmium steam population originating from the electric arc effect. The addition of lanthanum further reduces the content of oxygen and hydrogen. The optimum quantity of the addition of RE lanthanum in the copper alloy is 0.010% - 0.020% .

作者周世杰赵秉钧赵桢金鑫

机构地区 College of Materials Sicence and Engineering Southwest Jiaotong University Light-New Materials Science and Technology Co.

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2006年第z2期385-388,共4页 稀土学报（英文版）

基金 Project supported by the National Scientific and Technological Achievements Spread Project (2004EC00299) Science and Technology Type Middle and Small Business Technique Invention Fund (04C26225121390)

关键词 LANTHANUM COPPER alloy HIGH strength HIGH CONDUCTIVITY rare earthsConductivity COPPER Alloys lanthanum copper alloy high strength high conductivity rare earths

分类号 TG115 [金属学及工艺—物理冶金]

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