Microstructures and properties of SnZn-xEr lead-free solders 被引量：12

Microstructures and properties of SnZn-xEr lead-free solders

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摘要 The Sn9Zn eutectic alloy is the nontoxic lead-free solders alternative having a melting temperature which is closest to that of the eutectic SnPb alloy. In order to improve the properties of SnZn lead-free solders, 0-0.5 wt.% of rare earth Er was added to the base alloys, and the microstructures were studied. Results showed that the addition of rare earth Er could enhance the wettability of SnZn solders, with 0.08%Er addition, the spreading area gavc an 19.1% increase. And based on the mechanical testing, it was found that the tensile force and shear force of SnZn-xEr solder joints could be improved significantly. Moreover, the oxidation resistance of SnZn0.08Er solder was better than that of SnZn solder, in addition, it was found that trace amounts of rare earth Er could refine the microstructures of SnZn solders, espe- cially for Zn-rich phases, and excessive amount of rare earth Er led to a coarse microstructure. The Sn9Zn eutectic alloy is the nontoxic lead-free solders alternative having a melting temperature which is closest to that of the eutectic SnPb alloy. In order to improve the properties of SnZn lead-free solders, 0-0.5 wt.% of rare earth Er was added to the base alloys, and the microstructures were studied. Results showed that the addition of rare earth Er could enhance the wettability of SnZn solders, with 0.08%Er addition, the spreading area gavc an 19.1% increase. And based on the mechanical testing, it was found that the tensile force and shear force of SnZn-xEr solder joints could be improved significantly. Moreover, the oxidation resistance of SnZn0.08Er solder was better than that of SnZn solder, in addition, it was found that trace amounts of rare earth Er could refine the microstructures of SnZn solders, espe- cially for Zn-rich phases, and excessive amount of rare earth Er led to a coarse microstructure.

作者张亮崔俊华韩继光郭永环何成文

机构地区 School of Mechanical&Electrical Engineering Provincial Key Laboratory of Advanced Welding Department of Basic Experiment

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2012年第8期790-793,共4页 稀土学报（英文版）

基金 Project supported by Provincial Key Lab of Advanced Welding Technology Foundation(JSAWS-11-03) the Xuzhou Normal University Foundation(11XLR16) Natural Science Foundation of Jiangsu Province(BK2012144)

关键词 lead-free solders solder joints mechanical orooerties： oxidation resistance rare earths lead-free solders solder joints mechanical orooerties： oxidation resistance rare earths

分类号 TG454 [金属学及工艺—焊接]

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Journal of Rare Earths

2012年第8期

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