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1)  Interfacial energy
界面能
1.
Coherent electron structure of GP zones in Al-Cu alloy and interfacial energy between GP zones and matrix;
Al-Cu合金GP区的价电子结构与界面能
2.
Theoretical Calculation for Specific Interfacial Energy of Semi-Coherent Interface between MnS and Austenite;
硫化锰与奥氏体之间半共格界面比界面能的理论计算
3.
Determination on the precipitable order of scale by measuring interfacial energy in production of phosphoric acid;
界面能方法研究湿法磷酸生产中垢物的析出规律
2)  interface energy
界面能
1.
The model based on the interface energy can explain these two problems primitively in the dissolution of cementite.
建立了界面能模型以分析渗碳体溶解量的饱和现象及开始溶解门槛值问题,基于该模型可以初步解释渗碳体溶解过程中存在的这两个现象。
2.
And the solution of interface energy was obtained.
在Sine-Gorden势场下,导出相界面宽度,并求得相界面能量,得出其能量随着界面迁动速率增大而增大,从而表明了相变驱动力大的马氏体生长得快。
3.
As size of low dimensional materials decreases, which leads to the dramatic increase of surface/volume ratio, their properties are essentially controlled by related interface energetic terms, such as interface energy and interface stress.
随着低维材料尺寸的减小,表面体积比急剧增加,界面能和界面应力对材料性能的影响显著增加。
3)  interfacial property
界面性能
1.
The interfacial property between PBO fiber and epoxy matrix was investigated by fiber impregnate test, NOL ring interlaminate shear test and scan electron microscopy(SEM).
通过纤维浸润试验、NOL环层间剪切试验和扫描电子显微镜 (SEM)分析 ,PBO纤维经γ_射线辐照表面改性处理前后对纤维浸润性能及纤维 /环氧树脂界面性能具有一定的影响。
2.
Surface tension of resin,surface energy of carbon fiber and the advancing contact angle of the resin/fiber had been measured,which were used to analyze interfacial property of the resin/carbon fiber in RTM and effect on the wetting about resin/fiber after spreading tackifier solution on the surface of fibers.
通过测试树脂的表面张力、碳纤维的表面能以及树脂与纤维动态接触角来分析RTM成型过程中树脂/纤维界面性能,并对比分析了树脂对涂覆溶液定型剂前后的纤维浸润性能的影响。
4)  interface performance
界面性能
1.
Taking SiCp/6066Al composite as an example,calculate and analyse influence of interface performance parameters(interface/matrix modulus ratio,interface Poisson ratio and interface volume fraction) and meso-structural parameters(particulate shape,arrangement pattern and dimensional variance mode) on elastic modulus of particulate reinforced aluminium matrix composite.
以SiCp/6066A l复合材料为例,计算和分析了界面性能参数(界面/基体模量比、界面泊松比和界面体积含量)及细观结构参数(颗粒形状、排列方式和尺寸变化方式)对颗粒增强铝基复合材料弹性模量的影响。
2.
The paper is on the basis of the researchful achievement in the world, the reinforced mechanism of woven-fiber-grid-reinforced concrete beams was studied in which elastic properties , flexural properties and interface performance.
本文在国内、外研究成果的基础上,从编织纤维格栅增强混凝土梁的弹性性能、抗弯性能及界面性能等方面具体研究了编织纤维格栅增强混凝土的增强机理。
3.
The influence rules of crack imperfections on interface performance are obtained.
对 CFS-GFS 混杂加固钢筋混凝土梁界面建立有限元分析模型,模型中考虑界面末端附近混凝土带裂缝工作,分别研究了模拟实际情况下不同尺寸、不同位置、不同数量的裂缝对加固界面性能的影响。
5)  interfacial properties
界面性能
1.
Effects of fibre surface treatment on interfacial properties of CF/PAA composites;
纤维表面处理对CF/PAA复合材料界面性能的影响
2.
Analysis of the interfacial properties of hexadecane m-xylene sulfonate;
十六烷基间二甲苯磺酸盐的界面性能分析
3.
The Research on Interfacial Properties and Exciton Recombination Characteristics in Organic Electroluminescent Devices;
有机电致发光器件的界面性能及激子复合特性的研究
6)  interface properties
界面性能
1.
Interface properties of SiCf/Al treated with rich SiO2 has been improved, whereas interface properties of SiCf/Al treated with rich C degenerated at elevated temperature.
通过对SiC纤维表面富C、富SiO2和双涂层处理的SiCf/Al复合材料试样的不同热压制备工艺研究,发现热压温度和压力均对纤维表面改性后的界面性能有相当大的影响,温度和压力的提高改善了富SiO2处理试样的界面性能,却使富C和双涂层处理试样的界面性能蜕化,研究了产生这种影响的机制。
2.
Mode I interlaminar fracture toughness tests were carried out with glass stain wovenfabric vinylester composites, which were treated by several difFerent kinds of coupling agent, in orderto identify the relation betWeen interface properties and fracture behavior.
介绍了玻璃纤维增强复合材料Ⅰ型层间断裂韧性“RoundRobinTest”的结果随着偶联剂浓度的改变,Ⅰ型裂纹的扩展方式从稳态向非稳态转变这类断裂韧性强烈地依赖界面性能关键词##4界面性能;;Ⅰ型断裂韧性;;裂纹扩展;;稳态;;非稳
3.
Considering that the interface properties control the fracture mode,two kinds of models are presented respectively for brittle and ductile fracture strength.
由于界面性能对纤维应力集中有较大影响,并且控制着材料的断裂模式,分别给出了脆性断裂和韧性断裂的强度计算公式,并引入了应力集中系数和界面脱粘能量释放率。
补充资料:界面能
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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。

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