Two methods used to calculate WLF equation of low temperature relaxation for energetic materials

含能材料低温松弛 WLF 方程的两种 求值法

The Equivalency Between Stress and Temperature and the Physical Meaning of Parameters in WLF Equation

应力－温度等效性及 WLF 方程参数的物理意义

On the basis of Doolittle and Arrhenius equation it was showed that the WLF Equation had certain limitation to describe material 's behavior even though it had been used for a long time .

F 方程来处理这一问题的。但是 从 Doolittle 方程和Arrhenius方程来考察时，发现该 方程的局限性及其所 带来的计算 误差。

Combining Chow model with WLF equation the changing of viscosity with carbon dioxide can be predicted further and it is used in the simulation of bubble growth dynamics . 2 .

我们进一步利用Chowmodel和 WLF 方程，预测了体系粘度随二氧化碳浓度的变化，并用于气泡生长过程的模拟计算。

Two methods which were derived from the temperature and apparent activation energy at glass transition and from VFT equation were used to calculate the viscoelastic coefficients in WLF equation .

通过玻璃化转变温度和表观活化能以及由VFT方程 导 得 WLF 方程粘弹系数的两种 新计算方法。

Based on microcosmic segmental motion WLF equation suit for the appropriate temperature in polymer physics was analyzed .

分析了高分子物理中 WLF 方程的适用温度 范围.从微观的链段运动对 方程进行了详细的剖析。

A model for predicting dynamic shear modulus was developed using Sigmoidal function and WLF equation and the effectiveness of the model was verified .

利用Sigmoidal函数和 WLF 公式形成了剪切模量的预测模型，并验证了该模型的有效性。

Meanwhile there is good correlation between WLF equation in the C2 in WLF equation and T_g of asphalt and asphalt mixtures .

沥青的Tg与沥青混合料的Tg的 变化 趋势 一致，且相关性良好，并与 WLF 方程中的C2有良好的相关性。

WLF equation parameters were obtained at reference temperature 105 ℃ by shifting the creep curve along time logarithm axis . Based on viscoelastic material model simulation of hot embossing process was carried out .

基于 不同温度的蠕变曲线确定时温 等效 方程的参数，并基于粘弹性材料模型有限元仿真热压成形。

Analysis of WLF Equation in Polymer Physics

高分子物理中 WLF 方程的剖析

Storage Life Evaluation of Rigid PU Foam by WLF Equation

基于 WLF 方程的硬质聚氨酯泡沫塑料贮存寿命评估