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机构地区:[1]南昌大学先进成形制造及模具研究所,南昌330031
出 处:《中国有色金属学报》2009年第5期841-846,共6页The Chinese Journal of Nonferrous Metals
基 金:国家自然科学基金资助项目(50765005);江西省自然科学基金资助项目(2007GZC1826);江西省教育厅资助项目(GJJ0901)
摘 要:采用高能超声方法制备纳米SiC颗粒增强AZ61镁基复合材料,通过SEM和XRD技术对复合材料的微观组织和成分进行研究与分析。在Lennard-Jones势函数的基础上对超声分散纳米颗粒进行了理论探讨。结果表明:在超声作用下,质量分数为1%的纳米SiC颗粒在AZ61镁合金中得到弥散分布;颗粒之间存在的范德华力使得颗粒连接在一起,范德华力与颗粒半径和颗粒间距离的关系表明:直径为100nm的SiC颗粒之间最大的范德华力约为135nN,分散团聚纳米颗粒的最小压强约为17.2MPa。SiC nanoparticles reinforced AZ61 magnesium composites were fabricated by ultrasonic method. The microstructure and components of the composite were investigated by scanning electron microscopy (SEM) and XRD. Based on the Lennard-Jones potential function, the theory of dispersion nanoparticles by ultrasonic were also discussed. The results show that 1.0% (mass fraction) SiC nanoparticles can be dispersed very well in AZ61 magnesium matrix by ultrasonic dispersion. The particles are joined by van tier Waals force. The relationships among van der Waals force, the radius and the distance between particles show that the maximal van der Waals force is approximately 135 nN between SiC nanoparticles with diameter of 100 nm. The minimal pressure to separate the agglomeration nanoparticles is approximately 17.2 MPa.
分 类 号:TB333[一般工业技术—材料科学与工程] TB51[理学—物理]
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