The results show that molecular interaction at interface of TATB/Fluoropolymer composite is mainly Van der Waals force, and this force can not resist interfacial slippage effectively.
结果表明:TATB/氟聚物复合材料界面的分子间作用主要是范德华力,并且这种力不能有效阻止该界面的滑移。
The conventional inter-particle force model, including van der Waals force, Coulomb force and image force, could not explain these interaction behaviors.
受力分析表明,包含范德华力、静电库仑力和电像力的传统颗粒间作用力模型不能解释这种相互作用行为。
By further analyzing each energy item, it could be obtained that van der Waals' interaction energy was the main driving force for complex.
进一步分析各个能量项可得,范德华相互作用能为包结的主要驱动力。
For conjugation, immunoglobulin is directly adsorbed on the particle surfaces, mediated mainly by London–van der Waals force and hydrophobic interaction.
对于结合,免疫球蛋白直接吸附在颗粒的表面上,主要通过London-范德华力和疏水相互作用。
For conjugation, immunoglobulin is directly adsorbed on the particle surfaces, mediated mainly by London–van der Waals force and hydrophobic interaction.
对于结合,免疫球蛋白直接吸附在颗粒的表面上,主要通过London-范德华力和疏水相互作用。
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