垂直沉积干燥薄膜的剪切模量粒径依赖研究

SIZE-DEPENDENCE OF SHEAR MODULUS OF A DRYING PARTICULATE FILM FABRICATED BY CONTROLLED VERTICAL DRYING DEPOSITION

  • 摘要: 作者前期在关于胶体颗粒粒径对干燥薄膜的初始裂纹形成影响的研究论文中报道了:对于相同厚度薄膜的初始裂纹,其裂纹间距随颗粒粒径的增大而减小.本文从这一实验现象出发,针对垂直沉积干燥薄膜的剪切模量进行了进一步的理论分析.结果表明此薄膜的剪切模量同样具有粒径依赖的特性.同时,通过与颗粒聚集体材料剪切模量的粒径依赖性的比较,我们发现二者有所差异,这表明干燥薄膜的剪切模量不仅仅由其固相部分决定,其液相部分的影响不可忽视.

     

    Abstract: In our previous work, we reported that the initial crack spacing depends on the colloidal particle size. However, crack patterns must be related to the mechanical properties of the drying films, which has not been sufficiently explored. The fracture theories for drying colloidal films and the crystal fracture theory are used in this paper to study of a drying film formed by the controlled vertically drying deposition. We found that the shear modulus also depends on colloidal particle size. Further more, comparing our results with the variation of the dry particulate film's shear modulus, a remarkable discrepancy is found for this size-dependant behavior while the particle radius decreases. This remarkable discrepancy shows that the mechanical behaviors of drying particulate films are determined not only by the structure of the solid part but also by the liquid part.

     

/

返回文章
返回