Tensile yield strength was used to quantitatively evaluate the interfacial interactions, which have significant influence on the tensile fracture morphology of the composites. 采用拉伸屈服强度(TYS)定量表征了界面相互作用的强弱,研究了界面相互作用对三元复合体系拉伸断裂形态的影响。
The results showed that the Vicat softening temperature and the tensile yield strength were improved with the increase of CPVC content. 结果表明,共混材料的维卡软化温度和拉伸屈服强度(TYS)随CPVC用量的增加而增加;
The tensile yield strength and elongation of low-halogen flame-retardant HDPE were discussed. 研制了低卤阻燃HDPE,并对其力学性能进行了分析,详细讨论了不同分子量分布的HDPE、不同种类的偶联剂对阻燃HDPE的拉伸强度、断裂伸长率和氧指数的影响;
After ultraviolet irradiating, the Young's modulus and tensile yield strength of HDPE are increased; its elongation at break and notched Izod impact strength are decreased. 紫外辐照后,HDPE的杨氏模量和拉伸屈服强度(TYS)提高,但断裂伸长率和缺口冲击强度下降。
Many properties of diamond ( e.g. its physical hardness, high Young's modulus, high tensile yield strength, chemical inertness, low coefficient of friction and high thermal conductivity ) make it an excellent material for micromechanical device applications. 金刚石的许多性质(例如,高硬度、高弹性模量、高屈服强度、化学惰性、低摩擦系数和高热传导)使它成为微结构器件的优异材料。