The dependence of amorphous polymer cohesive energy density on temperature is studied.
本文对无定形聚合物的内聚能密度的温度依赖性进行了研究。
After that the density, diffusion coefficient, cohesive energy density, freezing point and viscosity of JP-10 and quadricyclane were simulated. The results show good agreements with literature data.
然后对JP-10,四环庚烷进行分子动力学模拟,计算了燃料的密度、扩散系数、内聚能密度、冰点及粘度,模拟结果与文献值基本相符。
The solubility parameters derived from the cohesive energy density (CED) of each amorphous cell system at different co-melting temperatures were calculated with the molecule modeling analysis module.
来自每个无定形的电池系统的内聚能密度(CED),在不同的共熔温度的溶解度参数,计算与分子建模分析模块。
Then, by means of the energy balance relation, a new cohesive stress law of Mode I crack is obtained which is only concerned with the surface energy density within the cohesive zone.
然后,利用能量平衡关系,得到仅与表面能密度相关的I型裂纹内聚力新的本构方程。
Then, by means of the energy balance relation, a new cohesive stress law of Mode I crack is obtained which is only concerned with the surface energy density within the cohesive zone.
然后,利用能量平衡关系,得到仅与表面能密度相关的I型裂纹内聚力新的本构方程。
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