摘要
现代高分辨电镜和高空间分辨分析电镜,使我们可以在纳米和原子尺度研究材料的显微结构和微区成份,从而极大地加深了我们对材料的结构与性能的理解.另一方面,随着信息技术的飞速发展,计算材料学也以前所未有的广度和深度,冲击着材料研究的模式.对显微结构的研究也是如此.材料的微结构,作为组成材料的大量原子在空间中的排列,本质上是由原子间的相互作用,即化学键决定的.借助第一原理总能与电子结构计算可给出原子间成键的详尽的信息,它在显微结构及其演变的研究中有很好的应用前景.本论文将先进电子显微术与计算材料学有机地结合起来,在从纳米、原子尺度到电子尺度等多个层次对钛基金属间化合物和陶瓷(Ti3SiC2,TiC,TiAl)的结构进行了研究.
Transmission electron microscopy and first-principles calculations are integrated to investigate the crystal structures and the microstructures of titanium-based intermetallics and ceramics on the nanometer, atomic, and electronic scales. The thesis contains three parts. (1) Distribution of W and the precipitation mechanism of the B2 phase in the lamellar structure of a TiA1 alloy. The B2-stabilizing effect of W and its site preference can be explained well on the basis of the pseudo-gap effect and the strong covalent W-Ti bonding. (2) The polymorphism, electronic structure, and microstructure of Ti3 SiCk. Unconventional stacking faults have been identified, which result from insertion of additional TiC layers into normal Ti3 SiC2 crystal, instead of from the dissociation of dislocations which occurs in most materials. (3) The effect of alloying elements Si and Al on the twin boundary found that Si and Al can reduce the twin boundary energy of TiC, leading to the energy of TiC. h was formation of a lot of microtwins.
出处
《中国科学院研究生院学报》
CAS
CSCD
2006年第6期837-841,共5页
Journal of the Graduate School of the Chinese Academy of Sciences
关键词
金属间化合物
显微结构
电子结构
电子显微学
第一原理计算
intermetallics, microstructure, electronic structure, transmission electron microscopy, firstprinciples calculations
作者简介
于荣:在博士研究生学习期间,在Acta Mater,Phys.Rev.Lett.和Phys.Rev.B等国际SCI期刊上发表10多篇论文,获首届郭可信优秀学生奖和2002年度中国科学院院长奖特别奖.
导师叶恒强研究员:主要从事材料物理和电子显微学研究.
