Microstructural evolution during direct laser sintering of multi-component Cu-based metal powder 被引量：1

Microstructural evolution during direct laser sintering of multi-component Cu-based metal powder

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摘要 A multi-component Cu-based metal powder was chosen for direct laser sintering. The powder consists of a mixture of high-purity Cu powder, pre-alloyed CuSn and CuP powder. Liquid phase sintering with complete melting of the binder (CuSn) but non-melting of the cores of structural metal (Cu) proves to be a feasible mechanism for laser sintering of this powder system. The microstructural evolution of the sintered powder with variation of laser processing parameters was presented. High sintering activities and sound densification response were obtained by optimizing the laser powers and scan speeds. Using a high laser power accompanied by a high scan speed gives rise to balling effect. At a high laser power with a slow scan speed the sintering mechanism may change into complete melting/solidification, which decreases the obtainable sintered density. The role of additive phosphorus in the laser sintering process is addressed. Phosphorus can act as a fluxing agent and has a preferential reaction with oxygen to form phosphatic slag, protecting the Cu particles from oxidation. The phosphatic slag shows a concentration along grain boundaries due to its light mass as well as the short thermal cycle of SLS. A multi-component Cu-based metal powder was chosen for direct laser sintering. The powder consists of a mixture of high-purity Cu powder, pre-alloyed CuSn and CuP powder. Liquid phase sintering with complete melting of the binder （CuSn） but non-melting of the cores of structural metal （Cu） proves to be a feasible mechanism for laser sintering of this powder system. The microstructural evolution of the sintered powder with variation of laser processing parameters was presented. High sintering activities and sound densification response were obtained by optimizing the laser powers and scan speeds. Using a high laser power accompanied by a high scan speed gives rise to baUing effect. At a high laser power with a slow scan speed the sintering mechanism may change into complete melting/solidification, which decreases the obtainable sintered density. The role of additive phosphorus in the laser sintering process is addressed. Phosphorus can act as a fluxing agent and has a preferential reaction with oxygen to form phosphatic slag, protecting the Cu particles from oxidation. The phosphatic slag shows a concentration along grain boundaries due to its light mass as well as the short thermal cycle of SLS.

作者沈以赴顾冬冬吴鹏杨家林王洋

机构地区 College of Materials Science and Technology Institute of Machinery Manufacturing Technology

出处《中国有色金属学会会刊：英文版》 EI CSCD 2005年第6期1309-1314,共6页 Transactions of Nonferrous Metals Society of China

基金 Project(10276017)supportedbytheJointFundofNationalNaturalScienceFoundationofChinaandChinaAcademyofEngineeringPhysics Project(04H52061)supportedbytheAeronauticalScienceFoundationofChina Project(S0403-061)supportedbytheScientificResearchInnovationsFoundationofNanjingUniversityofAeronauticsandAstronautics

关键词显微结构铜基金属粉末激光烧结液相烧结 direct metal laser sintering Cu-based metal powder liquid phase sintering microstructure

分类号 TF124.5 [冶金工程—粉末冶金] TF123 [冶金工程—粉末冶金]

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