界面能

R相形核于Ti（11）Ni（14）处，其规则外形是畸变能与界面能的综合效果。

The regular shape of the R - phase is the comprehensive effect of strain energy and interface energy .

从界面能最小化考虑，Ag（001）Ni（111）扭转界面的择优扭转角也为0°（或30°）。

From interface energy minimization , the preferable twist angle is 0 ° ( or 30 °) for Ag ( 001 ) / / Ni ( 111 ) twist boundary too .

体系的共格界面能作为马氏体相变临界驱动力ΔGγ→εMs中的阻力项所占的比例小于10%。

The interfacial energy as a resistance of martensitic transformation is less than 10 % of the critical driving force .

还作了C～V测试，得到了异质结的内建电势差和能带偏移，画出了界面能带图。

We did C-V measurement , so we got the value of built-in voltage and the band offset and drew the sketch for the interface .

间隙原子C对共格界面能的影响程度大于N，原因是C、N同置换原子的交互作用不同。

Because of the different interactions between substitutional ( N and C ) and interstitial atoms , N has a greater contribution to the interfacial energy than C atom .

Al-Zn合金GP区的价电子结构及界面能

Electron Structure and Interphase Boundary Energy of GP Zone in Al-Zn Alloy

固液界面能的降低也使得柱状枝晶的二次枝臂间距和一次分枝间距随着Sr量增多而降低。

The reduction of the solid-liquid interfacial energy also leads to the decreases of the primary dendrite spacing and the secondary dendrite arm spacing .

含氮的Fe-Mn-Si基合金共格界面能的理论计算

Theoretical Calculation of Coherent Interfacial Energy in Nitrogen-Added Fe-Mn-Si Based Alloys

Fe-Mn-Si基合金共格界面能的离散点阵平面分析

Discrete Lattice Plane Analysis of Coherent Interfacial Energy in Fe-Mn-Si Based Alloys

盐渍化地区SPAC系统不同界面能态研究

Study of Energy State of Different Interfaces of Soil-Plant-Atmosphere Continuum in Saline Soil

此外用金属固液界面能模型预测了Ag、Cu和Ni在一定的体积与冷速比值下的均质形核过冷度。

Moreover , the dependences of homogenous nucleation undercooling on the ratio of sample volume to cooling rate for Ag , Cu and Ni were predicted according to solid-liquid interfacial energy model .

M-Cu（M：Fe，Co）合金亚稳液相分离时液相间的界面能

Interfacial Energy between two Liquids of Metastable Miscibility Gap in M-Cu ( M : Fe , Co ) Alloys

运用EET理论计算界面能是简便且行之有效的方法。

It is an easy and effective method to apply EET theory to the calculation of interphase boundary energy .

这可能是由于锶的加入，改变了液态金属的结构，导致枝晶尖端前沿生长过冷度增加，降低了枝晶α（Al）固液界面能。

The present of Sr in Al-Si alloys causes the changes of structures of liquid metals , and leads to the decreases of the solid-liquid interfacial energy of dendrite α( Al ) and increases of the growth undercooling of dendrite tips .

从整个物质体系的界面能和位能计算出发，根据热力学平衡条件下整个物质体系的总能量应该达到最小，同样可以得到著名的YoungLaplace方程。

A new derivation method of the Young-Laplace equation is also presented , based on the interfacial energy , the potential energy , and the total energy of the whole material system which should be minimum on the thermodynamic equilibrium condition .

研究了本征层厚度以及异质界面能带不连续性对光伏性能的影响，并与TanakaM等的试验结果进行了比较。

The effect of i-layer thickness and band offset on photovoltaic performances were investigated , and compared with experimental results reported by M. Tanaka et al .

研究了低温SDB的特性并得出了经过氧等离子体处理的硅片界面能比常规同条件的SDB提高近10倍的结论。

Its property is investigated , and the conclusion is draw that oxygen plasma activating can increase the strength of bonding interface ten times that of convention at SDB in the same condition .

运用固体经验电子理论计算Al-Zn合金GP区的价电子结构，并运用其价电子结构的信息计算其与母相的界面能。

The valence electron structure of GP zone in Al-Zn alloy is calculated according to the empirical electron theory . The result of valence electron structure is further applied to analyzing the interphase boundary energy between GP zone and matrix .

本文介绍了GENIE自动化组态软件在水力机械多相流动试验台监控系统中的应用，通过界面能实时观测动态波形、处理数据，优化控制现场作业，提高生产率。

In this paper , the software of GENIE applied to control system of multiphase-flow test stand in the fluid machinery was introduces . It can real-timely observe the dynamic curve and deal with the data , optimize the spot task , enhance productivity through the interface .

还原WO3的限制性环节是WO3在熔渣中的扩散，改善渣的流动性，扩大反应界面能加快WO3的还原；使用阻尼剂能有效抑制钼的挥发。

The diffusion of WO_3 is the restrictive step of reduction process of WO_3 . Improving fluidity of slag and enlarging areas of reaction interface can accelerate reduction process of WO_3 . The use of damping preparation can restrain volatilization of molybdenum oxide effectively .

在LPE生长的初始阶段存在种膜的部分溶解、夹杂的形成和与稀土元素种类有关的择优生长等现象，用包括曲率效应和界面能影响的粗化机制可以解释以上现象。

In the initial stage of LPE , the coarsening mechanism including the curvature effect and interfacial energy can explain many phenomena in the LPE growth , i.e. the partial dissolution of seed films , preferential growth associating with the RE species and the formation of inclusions .

采用诱导期的方法测定界面能。

The interfacial energy was obtained by measuring the induction period .

界面能各向异性对晶体生长的影响及其测量方法

Measurement Method and Effects of Interfacial Energy Anisotropy on Crystal Growth

土工合成材料的蠕变零蠕变法测量固-固相界面能研究

A Study of Determination of Solid-Solid Interfacial Energies by Zero Creep Measurements

不相溶金属体系的固液界面能

Solid-Liquid Interfacial Energies in the Metal Systems without Intersolubility

氨水介质中硫酸钾结晶界面能对结晶的影响

The Influence of Cristal Interfacial Energy of Potassium Sulfate in Ammonia Aqueous Solution

固液界面能差效应与冷凝传热强化研究进展

Advances in liquid-solid-interfacial-energy-difference effect and condensation heat transfer enhancement

尺寸依赖的界面能与界面应力

Size Dependent Interface Energy and Related Interface Stress

界面能对体相化学位的影响；

The effect of interfacial energy on the chemical potential of the bulk phase ;

Si/ZnS极性界面能带偏移的同步辐射光电子能谱研究

Valence band offsets of si / zns polar interfaces : a synchrotron radiation photoemission study