1) freezing adhesive interface
冻黏界面
2) interfacial viscosity
界面黏度
1.
Result indicates that interfacial viscosity, interfacial viscous modulus and interfacial elastic modulus increase first and then decrease with the increase of temperature, and go up again.
实验结果表明,界面黏度、界面黏性模量和界面弹性模量受聚合物相对分子质量、配制水矿化度和聚合物溶液质量浓度的影响,三者随聚合物相对分子质量和聚合物溶液质量浓度的增大均增加,随配制水矿化度的增加均减小。
3) Bonding interface
黏结界面
1.
METHODS:Microtensile strength of 5 wet bonding systems were measured with Instro 1195, and the bonding interface were observed with SEM and TEM.
方法 :分别测试两类 5种牙本质湿黏结系统的微拉伸强度 ,结合各自黏结界面的SEM和TEM观察结果 ,分析不同类型黏结系统的黏结强度与黏结界面微观形态之间的关系。
4) interface debonding
界面脱黏
1.
Based on cohesive interface debonding model,the Mori-Tanaka method is used to study the effect of nonlinear interface debonding on the mechanical performance of composite propellant.
基于内聚力界面黏结模型,用Mori-Tanaka方法研究了非线性界面脱黏对推进剂力学性能的影响。
2.
In order to validate the ability of the generalized method of cell(GMC) with weak interface in modeling the interface debonding within continuum fiber reinforced composite,three kinds of week interface were considered in this paper to study the effect of the interface on global mechanics behavior of composite.
为考查通用单胞模型和弱界面分离模型模拟复合材料界面脱黏的有效性,考虑了柔性界面,常响应界面和渐进适应界面三种不同的界面分离模型,并分析了界面对材料性能的影响。
6) Freezing extension interface
冻胀界面
补充资料:潮黏黏
1.潮湿粘糊的样子。
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