1)capillary anisotropy界面能各向异性
1.Based on the adaptive finite element method,the phase-field model has been employed to simulate the free dendritic growth process governed by capillary anisotropy or kinetic anisotropy.采用自适应有限元方法求解相场模型,分别对界面能各向异性和界面动力学各向异性条件下自由枝晶生长过程进行了模拟。
英文短句/例句
1.Measurement of Interfacial Energy Anisotropy and Study of Free Dendritic Growth of Succinonitrile;丁二腈界面能各向异性的测量及自由枝晶生长研究
2.Measurement Method and Effects of Interfacial Energy Anisotropy on Crystal Growth界面能各向异性对晶体生长的影响及其测量方法
3.The anchoring energy is the anisotropic part of interface energy.其中界面能的各向异性部分就是锚定能。
4.Growing Crack Tip-fields on Anisotropic Bimaterial Interface各向异性双材料界面裂纹扩展裂尖场
5.Boundary Element Methodfor Elasto-plastic Analysisof Plane Orthotropic Problems;正交各向异性平面问题弹塑性分析的边界元法
6.Material Parameter Identification of Two-dimensional Orthotropic Bodies by the Boundary Element Method;平面正交各向异性体材料参数识别的边界元法
7.The Effect of Uniaxial Anisotropy on Conditions of Interface Spin Waves体各向异性场对界面自旋波存在条件的影响
8.Anisotropic bounding surface model for saturated soft clay under cyclic loading循环荷载下软黏土的各向异性边界面模型
9.Research on Stress Singularities about V-notch and Interface in Orthotropic Materials正交各向异性材料V型切口及界面问题的应力奇异性研究
10.orthotropic deck structure正交各向异性桥面结构
11.ANALYSIS OF INTERFACE CRACK IN ANISOTROPIC MATERIALS BY SUBDOMAIN BEM用子域边界元法研究各向异性材料中的界面裂纹
12.Theoretical Analysis about the Surface Structure and Energy Anisotropy of Crystal;晶体表面结构及能量各向异性的理论分析
13.Effect of the Uniaxial Anisotropy and the Spin Chain Length on the Conditions for the Existence of Interface Spin Waves;体各向异性场和自旋链长度对界面自旋波存在条件的影响
14.Interaction between Screw Dislocations and Circular Inclusions with Imperfect Interfaces in Anisotropic Materials;各向异性材料中螺型位错与含非完整界面圆形夹杂干涉效应
15.Time-distance Simulation of P-wave Reflection from 3D Dipping Interface in Anisotropic Media;各向异性介质中三维倾斜界面P波反射时距模拟
16.Phase-field modeling of the effect of liquid-solid interface anisotropies on free dendritic growth相场模型模拟液固界面各向异性作用下自由枝晶生长
17.Anisotropy Analysis of Surface Energy in Crystals and Its Driving Force for Abnormal Grain Growth in Thin Films;晶体表面能各向异性分析及其对薄膜中异常晶粒生长的驱动作用
18.Natural boundary element method for a kind of anisotropic parabolic problem in an exterior domain各向异性抛物外问题的自然边界元法
相关短句/例句
interface anisotropy界面各向异性
1.Our theory holds for arbitrary external magnetic field,ferromagnetic or antiferromagnetic interface exchange coupling and arbitrary easy axis(unaxial) volume and interface anisotropy.结果发现,在三链系统中,有两种不同类型的光学界面自旋波,它们在不同界面各向异性条件下,均可存在0~2个自旋波
2.Our theory holds for arbitrary external magnetic field,ferromagnetic or antiferromagnetic interface exchange coupling,and arbitrary easy axis (unaxial) volume and interface anisotropy.计入外磁场、铁磁和反铁磁层间耦合、体和界面各向异性后,研究了A-B-A 三链系统中的声学型界面自旋波及其存在条件。
3.The model of a ferromagnetic bichain with arbitrary easy axsi unaxial volume and interface anisotropy,and ferromagnetic or antiferromagnetic interface exchange coupling is investigated.在考虑了外磁场、界面各向异性后,详细研究了铁磁和反铁磁层间耦合下自旋双链系统中的声-光型界面自旋波及其存在的充要条件。
3)anistropic interface各向异性界面
4)surface energy anisotropy表面能各向异性
5)anisotropy energy各向异性能
1.L10 ordered FePt thin films have drawn considerable attention as a potential ultra-high density magnetic recording material, due to its large magnetocrystalline anisotropy energy, high coercivity, high energy product, high Curie temperature, and excellent resistance of corrosion.L10有序FePt合金薄膜具有高磁晶各向异性能、高矫顽力、高磁能积、高居里温度和抗腐蚀能力强等优点,能够满足超高密度磁记录的要求,极有可能成为下一代超高密度磁存储介质。
6)planar anisotropy平面各向异性
1.Grain structure,texture and planar anisotropy of Al-Mg-Sc alloy plate;铝-镁-钪合金板材晶粒结构、织构和力学性能平面各向异性
2.The effect of cold reduction on the planar anisotropy of cold rolled and annealed low carbon steel sheets microalloyed with Ti was studied under prescribed processing conditions in the lab.在实验室工艺条件下,研究了冷轧压下率对微钛处理的低碳钢板的平面各向异性的影响,对不同压下率下钢板的典型织构进行了比较,并对压下率和钛共同作用,影响平面各向异性的机理进行了分析。
3.The effect of titanium on the planar anisotropy of cold rolled and annealed sheets was studied under prescribed processing conditions.研究了在一定工艺条件下,微合金化元素钛对冷轧退火态钢板平面各向异性的影响,比较了不同钛含量的ODF(取向密度函数)织构图,并对钛影响平面各向异性的机理进行了分析。
延伸阅读
界面能分子式:CAS号:性质:又称总表面能或表面内能。是在恒温恒压条件下增加单位界(或表)面体系内能的增量。
