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国家教育部博士点基金(20090006120022)

作品数:2 被引量:19H指数:2
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放电等离子烧结法制备高导热金刚石/Al复合材料被引量:9
2011年
以金刚石颗粒和铝粉为原料,通过放电等离子烧结(spark plasma sintering,SPS)制备高导热金刚石/Al复合材料,在烧结前采用真空微蒸发镀钛工艺对金刚石颗粒进行表面金属化,以降低复合材料的界面热阻。研究SPS工艺参数、铝粉粒度搭配以及复合材料中金刚石含量(体积分数)等对该复合材料致密度及热导率的影响。结果表明,将平均粒度为17μm和100μm的铝粉按1:3的质量比搭配,再与表面镀钛金刚石颗粒按2:3的体积比混合,采用50 MPa的先加压后送热的加压方式在610℃下进行放电等离子烧结,可获得致密度达99.7%的金刚石/Al复合材料。与匀速加压相比,采用先加压后送热的加压方式可使材料致密度提高近3%。对金刚石颗粒进行真空微蒸发镀钛,能使复合材料的热导率从125.3 W/(m.K)提高到486.3 W/(m.K),可以很好地满足大功率电子器件对封装材料的散热要求。
沈晓宇任淑彬刘楠何新波曲选辉
关键词:SPS热导率
Effect of Mg and Si on infiltration behavior of Al alloys pressureless infiltration into porous SiCp preforms被引量:10
2011年
The effect of Mg and Si additon to Al matrix on infiltration kinetics and rates of Al alloys pressureless infiltration into porous SiCp preform was investigated by observing the change of infiltration distance with time as the Al alloys infiltrate into SiCp preforms at different temperatures.The results show that infiltration of SiCp preforms by Al melt is a thermal activation process and there is an incubation period before the infiltration becomes stable.With the increase of Mg content in the Al alloys from 0wt% to 8wt%,the infiltration will become much easier,the incubation period becomes shorter and the infiltration rate is faster,but these effects are not obvious when the Mg content is higher than 8wt%.As for Si addition to the Al alloys,it has no obvious effect on the incubation period,but the infiltration rate increases markedly with the increase of Si content from 0wt% to 12wt% and the rate has no obvious change when the content is bigger than 12wt%.The effect of Mg and Si on the incubation period is related to the infiltration mechanism of Al pressureless infiltration into SiCp preforms and their impact on the infiltration rate is a combined result from viscosity and surface tension of Al melt and SiC-Al wetting ability.
Shu-bin Ren Xiao-yu Shen Xuan-hui Qu Xin-bo He
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