Kinetic undercooling in solidification of a hypereutectic Al-Si alloy; Effect of solidifying within a ceramic preform composite
暂无分享,去创建一个
[1] Dan Li,et al. Development of grain structures in highly undercooled germanium and copper , 1996 .
[2] B. W. V. D. Waal. Cross-twinning model of fcc crystal growth , 1994 .
[3] N. Ming,et al. Re-entrant corner mechanism of fcc crystal growth of a-type twin lamella: the Monte-Carlo simulation approach , 1994 .
[4] R. Elliott,et al. Growth structures in aluminium-silicon alloys. II: The influence of strontium , 1992 .
[5] William A. Tiller,et al. The Science of Crystallization: Microscopic Interfacial Phenomena , 1991 .
[6] J. Cornie,et al. Solidification processing of metal-matrix composites , 1988 .
[7] N. Ming,et al. Twin lamellae as possible self-perpetuating step sources , 1988 .
[8] P. Harris. The sintering of platinum particles in an alumina-supported catalyst: Further transmission electron microscopy studies , 1986 .
[9] S. Hosoya,et al. Re-investigation of the re-entrant corner effect in twinned crystals , 1979 .
[10] A. Hellawell,et al. Structure and properties of aluminium-silicon eutectic alloys , 1972 .
[11] W. R. Bottoms,et al. Growth and Defect Structure of Lamellar Gold Microcrystals , 1968 .
[12] R. Seidensticker,et al. Propagation Mechanism of Germanium Dendrites , 1960 .
[13] A. Sundarrajan. Solidification behavior of Al-30 wt% Si in the presence of continuous alumina fibers , 1996 .
[14] R. Elliott,et al. Growth structures in aluminium-silicon alloys I. The coupled zone , 1984 .
[15] C. Lupis. Chemical thermodynamics of materials , 1983 .
[16] R. Wagner. On the growth of germanium dendrites , 1960 .