TiC颗粒增强Fe-Cu基复合材料制备方法  被引量:1

Preparation process of TiC particles reinforced Fe-Cu matrix composites

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作  者:魏仕烽[1] 冯可芹[1] 陈洪生[1] 张瑞[1] 张光明[1] 邓伟林[1] 

机构地区:[1]四川大学制造科学与工程学院,四川成都610065

出  处:《材料热处理学报》2012年第11期40-45,共6页Transactions of Materials and Heat Treatment

基  金:教育部留学回国人员科研启动基金项目(20101561-3-1)

摘  要:采用Gleeble-3500D热模拟机在电场下原位合成Fe-Cu-TiC复合材料,同时在真空炉中分别采用原位合成法及外加TiC颗粒法制备Fe-Cu-TiC复合材料,并对3种方法制取的Fe-Cu-TiC复合材料的显微组织结构及性能进行了对比研究。结果表明:相比真空炉原位合成法,电场作用下Fe-Cu-Ti-C体系能够在较低的温度(754℃)下实现合成反应且反应更加完全;电场下合成试样的相对致密度及显微硬度均高于真空炉下原位合成的试样。在真空炉内原位合成试样时,由于Ti与C反应不完全,生成的TiC颗粒增强相较少,导致其显微硬度低于外加颗粒法制取的试样;当最高加热温度为1000℃时,在真空炉中采用原位合成法及外加颗粒法制得试样的相对致密度没有明显差异。TiC/Fe-Cu composites were produced by in-situ synthesis under an electric field on a Gleeble-3500D thermal simulator,and in situ synthesis or directly adding adding TiC particles in a vacuum furnace,respectively.The comparision of samples produced by three methods was investigated.The results show that compared with that in-situ synthesized in the vacuum furnace,the Fe-Cu-Ti-C system under an electric field can not only react at a low temperature(754 ℃),but more completely.The relative densities and microhardness of the composites obtained under the electric field are higher than those in-situ synthesized in the vacuum furnace.Due to less TiC particles in-situ synthesized in vacuum furnace by the un-complete reaction between Ti and C,the microhardness of the in-situ synthesized samples in the vacuum furnace is lower than those produced by directly adding TiC particles.However,when the temperature is elevated to 1000 ℃,the relative densities of samples produced using the two different methods in the vacuum furnace have little difference.

关 键 词:Fe-Cu-TiC 电场 原位 外加颗粒 

分 类 号:TB331[一般工业技术—材料科学与工程]

 

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