1) glass (transition) temperature
玻璃(态)化温度
2) glass transition temperature
玻璃态转化温度
1.
The glass transition temperature can reflect the low temperature performance of the diatomite asphalt better and has a good relationship with breaking temperatures.
结果表明:硅藻土沥青有优于基质沥青的低温性能;玻璃态转化温度可以较好地反映硅藻土沥青的低温性能;玻璃态转化温度与破断温度有较高的相关性。
3) glass transition temperature
玻璃化温度
1.
Effect of hardeners with different structure on glass transition temperature of cured epoxy resins: A molecular dynamic simulation approach;
不同固化剂对环氧树脂玻璃化温度影响的分子动态模拟研究
2.
QSPR study on glass transition temperatures of polystyrenes by using Quantum - Chemistry descriptors;
量子化学参数研究聚苯乙烯类玻璃化温度的定量构效关系
3.
Predictions of glass transition temperature of terpolymers via neural networks;
利用神经网络预测聚合物玻璃化温度
4) glass temperature
玻璃化温度
1.
It also studies the effects of different glass temperatures on the mechanical properties.
介绍了苯丙乳液的合成及性能,并讨论了乳化剂的类型、乳化剂的量、引发剂的量、滴加速度、反应温度对乳液粒径的影响,同时研究了不同玻璃化温度对苯丙乳液力学性能的影响。
2.
The latex particles size, distribution morphology, structure, surface group quantity, glass temperature and the stabilities were determined.
在相同的配方条件下 ,采用无皂乳液聚合制备苯乙烯 /丙烯酸丁酯 / N,N-二甲基 ,N-丁基 ,N- ( 3-甲基丙烯酰胺基 )丙基溴化铵 ( St/ BA/ DBMPA)阳离子共聚物复合乳液 ,考察了单体加料方式对乳液粒子大小、形态、结构、表面性质的影响及对最终聚合物玻璃化温度和乳液的稳定性的影响。
3.
By studying the several important control indicators of glass powder,such as crystallization,glass temperature,the optimum proportion of glass powder is made certain.
通过研究玻璃粉的几个重要控制指标如析晶、玻璃化温度,确定了玻璃粉的最佳配比。
5) glass-transition temperature
玻璃化温度
1.
The effects of plasticizers TP-95 and TP-90B on the glass-transition temperature,low-temperature performance,curing characteristics, mechanical properties and the resistance of heat aging property for NBR were studied,compared with common plasticizers DOA and DOP.
结果表明,添加含醚基的TP-90B和含醚酯基的TP-95使NBR硫化胶的玻璃化温度明显降低,低温拉伸性能和低温脆性性能优于DOA和DOP。
2.
Results show that the glass-transition temperature has been enhanced by 43 ℃,the tensile strength is increased 17.
结果表明,SiO2、TiO2和SiC混合掺入质量分数为4%时,玻璃化温度提高了43℃,抗拉强度提高了17。
6) glass transition temperature
玻璃态转变温度
1.
Based on the understanding of the relation between glass transition temperature and stickiness,the reason of sticking of substances containing different kinds of sugars on the drier chamber wall during their spray drying was analysed and six(methods) were suggested to solve this problem,including modification of the substances and improvement of design of the drying process.
从玻璃态转变温度着手,分析了在喷雾干燥中含有不同品种糖类物料粘壁的原因,提出了改性或在设计干燥流程时的6种应对方法。
2.
The glass transition temperature (Tg) of dough was not related to RS type.
结果表明:添加不同种类的抗性淀粉玻璃态转变温度(Tg)基本没有发生变化;而随着添加抗性淀粉量的增加,Tg有轻微的上升。
补充资料:玻璃化温度
分子式:
CAS号:
性质:橡胶分子随着温度下降其热运动减弱,当达到某一温度时,分子链及分子链段被冻结;失去橡胶的弹性而硬化,呈冻结状态,该温度即冻结温度。有时也称玻璃化温度.橡胶的冻结温度与材料本身的化学组成及分子结构有关,分子链柔性越大,冻结温度也越低。
CAS号:
性质:橡胶分子随着温度下降其热运动减弱,当达到某一温度时,分子链及分子链段被冻结;失去橡胶的弹性而硬化,呈冻结状态,该温度即冻结温度。有时也称玻璃化温度.橡胶的冻结温度与材料本身的化学组成及分子结构有关,分子链柔性越大,冻结温度也越低。
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参考词条