1) phase boundary potential
界面电位
2) the interface potential
界面电位差
1.
Three kinds of WO3 films with different electrochromism proPerties were made, and their variation of the interface potentials were measured as a function of the number of Li + ions injected into WO3 film.
探讨了WO3薄膜与1MLiClO4-PC溶液之间的界面电位差的变化规律及测量方法。
3) voltage drop
界面电位降
1.
It consists of the coefficient of nonlinearity of I V curve α and the parameter charactering the voltage drop of the interface, ξ .
利用准分子激光原位淀积法制备了 BIT/ PZT/ BIT,PZT/ BIT和 BIT层状铁电薄膜 ,建立了一条修正的经验幂定律 I=A(ξ V) α和一个层状铁电薄膜电流密度 -电压 (I- V)曲线的近似公式 ,它包括了的非线性系数α和界面电位降特征参数 ξ。
4) potential difference on metal-solution inter face
金属-溶液界面电位差
5) interface
界面
1.
Effect of an electromagnetic field on precipitates in the composite interface of Al-Mg/Al-Si;
电磁场对Al-Mg/Al-Si复合界面析出相的影响
2.
Investigation on microstructure at the bonding interface of TiC cermet/steel composite plate prepared by explosive welding;
TiC硬质合金/碳钢爆炸焊接复合板界面微观组织
3.
Effect of nano ZrO_2 crystal structure on copper matrix composite interface;
纳米ZrO_2晶型对铜基复合材料界面的影响
6) interphase
界面
1.
Advances in Research of the Interphase in Multi-Phase Polymers;
多相聚合物体系相界面研究进展
2.
Densities of the composites with or without C/SiC interphase are about 1.
当C/SiC界面涂层存在时,气相渗硅C_f/SiC强度为239。
3.
The interphase of glass state carbon appeared between the matrix and reinforced phase, which resulted in weak joint.
研究表明:材料表现出脆性断裂的破坏失效特征;SiCp/SiC复合材料内部颗粒间、团聚体之间残留的微孔和孔隙等薄弱环节使材料的强度降低;复合材料基体和增强相之间有一层由树脂热解而产生的玻璃碳,造成界面的弱结合,使材料强度不高。
7) ⅠandⅡinterfaces
Ⅰ,Ⅱ界面
8) boundary
界面
1.
Moving Chemical Reaction Boundary Formed by Strong Reaction Electrolytes: Theory;
由强反应电解质形成的移动化学反应界面:理论(英文)
2.
Stationary Chemical Reaction Boundary: Theory and Test;
静止化学反应界面:理论和验证(英文)
9) second interface
Ⅱ界面
1.
Based on field data and analysis of methods adopted by others, this paper presents a simple but effective method to evaluate cementing quality of second interface.
声幅 -变密度测井技术可以有效地评价固井Ⅰ界面 (套管和水泥环 )的胶结质量 ,但对固井Ⅱ界面 (水泥环和地层 )胶结质量的评价方法研究还不够完善。
2.
No effective methodology for cementing evaluation, especially for identification of second interface cementation and annulus cement packing on account of formation media difference and the characteristic complexity for wave propagation.
由于地层介质的差异性,波在其中的传播表现出极其复杂的特征,导致固井质量的评价特别是Ⅱ界面胶结状况的判别一直缺乏有效的方法。
10) surface
界面
1.
Research on the Design of Urban Housing Surface;
城市住宅外界面设计研究
2.
In the following, it, by four views of form feature, feature space, surface compound and environment protection, brings forward from the internal logic and dialectical relationship of construction form and ecological conception sixteen construction mode languages, for example sunshade of form and structure, compound yard space, compound facades and construction concealing and so on.
通过对注重生态保护与可持续发展的建筑形态进行系统分析、归纳与整理,从建筑形态与生态理念的内在逻辑和辩证关系层面以及从建筑的“形态特征、特色空间、界面复合、环境保护”四种视角出发,提出了“形体遮阳、合院空间、复合立面、建筑隐藏”等多种生态与形态共生的建筑模式语言。
3.
Its surfaces design is the continuation of architecture design.
室内空间是建筑空间的重要组成部分,室内空间界面的设计是建筑设计在室内的深化和延续。
补充资料:界面电位(interfacialpotential)
【界面电位】(interfacialpotential)一种电化学概念。即两相接界面处的电位。分为静态的动态的两种。静态的即“接界电位”,由于在金属与溶液界面处产生了*双电层而形成的电位差;动态的即`\zeta`电位(Zeta-电位),也称“界面动态电位”,产生于相互接触的固体和液体相对运动时形成于界面处的电位差。与接界电位不同,`\zeta`电位同固体表面所带电荷的正负值有关,且其数值远比接界电位小。
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