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1.
Thermodynamics of the Martensitic Transformation FCC→BCC(BCT)
面心立方→体心立方(正方)马氏体相变热力学
2.
The Finite Element Simulation of F.C.C Poly-Crystalline Plastic Deformation;
面心立方多晶体塑性变形有限元模拟
3.
A Statistical Mechanical Treatment of Hydrogen Evolution Reaction on FCC Metal
面心立方金属电极氢析出反应统计力学处理
4.
ON REDUCTION OF THE HIGH ORDER TWINNING IN FCC STRUCTURE TO A SINGLE ROTATION RELATIONSHIP
面心立方晶体高次孪晶化为一次旋转对称关系
5.
Study of Spin Waves in Ferromagnetic Bilayers with FCC Structure;
面心立方双层铁磁性薄膜中的自旋波研究
6.
The Fabrication and Research of Colloidal Crystals for Non-close-Packed Face-centered-Cubic Structure;
非密堆积面心立方结构胶体晶体的制备和研究
7.
Simulation of face-centered cubic lattice s First Brillouin zone with 3-dimensional animation;
面心立方晶格第一布里渊区的三维动画模拟
8.
Strict Analytical Solution of Phonon Spectrum in Three-dimensional Face Centered Cubic Crystal
三维面心立方晶体声子谱的严格解析解
9.
QUASICONTINUUM SIMULATION ON THE PLASTIC DEFORMATION IN FCC AL
面心立方铝剪切变形的准连续介质模拟
10.
Ab initio simulation on thermodynamic equation of state of fcc aluminum under high temperature and pressure
从头算方法研究面心立方铝在高温高压下的热力学状态方程
11.
A model for the transformation of Crystal orientation in face-centred cubic metals has been proposed here.
本文提出一个面心立方金属中晶体取向转变的模型。
12.
A CALCULATION OF THE ENERGIES OF VACANCY MIGRATION AND SELF-DIFFUSION-ACTIVATION IN SOME fcc METALS
若干面心立方金属的空位迁移能和自扩散激活能的计算
13.
ELECTRON DIFFRACTION ANALYSIS OF THE TWIN AND HCP PHASE FORMED IN A FCC CRYSTAL
面心立方晶体中生成孪晶或六角密堆相的电子衍射分析
14.
Defects of FCC Metal Materials Induced by High Current Pulsed Electron Beam;
强流脉冲电子束作用下面心立方金属缺陷结构形成与演化
15.
The Ordered Structure of FCC Alloy Thin Film Tailored by the Epitaxial Growth Kinetics;
外延生长动力学剪裁面心立方合金薄膜有序结构的研究
16.
ln other business news today Wall Street is braced for this quarters report on consumer confidence.
商业方面华尔街重新树立了消费者的信心
17.
Perfect Dislocation Reaction Systems on {100}-{110}-{112} Planes in the BCC Lattice
体心立方晶体{100}—{110}—{112}晶面上全位错反应系统
18.
The characteristics of the acceleration of the instantaneous velocity center( IVC) were presented, and the trajectory equation for pure rolling of rigid body( PRORB) was developed.
分析了瞬心的加速度特性,建立了刚体平面纯滚动的轨迹方程。