1) coherent interface
共格界面
2) coherent interfacial energy
共格界面能
1.
Smirnov's statistic model was introduced into the modified discrete lattice plane model(MDLP) to separate the contributions from the substitutional and interstitial atoms, so as to deal with the coherent interfacial energy in the multi-component alloys with the addition of interstitial atoms.
利用改进的离散点阵平面模型(MPLD),引入Smirnov的统计模型,将间隙原子和置换原子对界面能的贡献分开,可计算含有间隙原子的多元合金体系的共格界面能。
2.
A discrete lattice plane (DLP) model was modified based on thermodynamics to deal with the coherent interfacial energy of fcc/hcp in multi element substitutial alloys.
结合合金的相变热力学对离散点阵平面 (DLP)模型进行了改进 ,使之能够处理多元置换型合金中诸如马氏体与奥氏体这类化学成分相同而结构不同的两相共格界面能 。
3) interface coherency
界面共格度
1.
The method to determine the composition,the degree of interface coherency and the tilt angle between the layer and substrate by measuring three independent doublecrystal rocking curves is presented,and has been used in the study of(ZnSe/CdSe)/ZnSe/GaAs multiple quantum wells.
给出了通过测量3条X射线双晶衍射摇摆曲线计算多层外延材料各层成份、界面共格度及晶向偏角的方法,并对(CdSe/ZnSe)ZnSe/GaAs(001)多量子阱材料的结构、应变及界面进行了研究。
4) incoherent interface
非共格界面
5) coherent interface models
共格界面模型
1.
Based on their crystalline structure characteristics and the corresponding principle of structure,the coherent interface models between diamond and TiC or between TiC and Ti w.
根据金刚石、TiC和Ti的晶体结构特点,应用结构对应原则,创建了金刚石/TiC/Ti共格界面模型。
6) partially coherent interface
部分共格界面
1.
A structural model of FCC:BCC partially coherent interface .
本文用计算机再次模拟了FCC:BCC部分共格界面结构。
补充资料:共格界面
coherentinterface:界面两侧的点阵在跨越界面处是一对一地相互匹配,即在跨越界面的方向上,界面两侧的阵点列和阵点面都完全具有连续性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条