Effect of the Nanoparticle Functionalization on the Cavitation and Crazing Process in the Polymer Nanocomposites  

作　　者：Yan-Long Luo Tian-Tian Li Bin Li Xian-Ling Chen Zhen-Yang Luo Yang-Yang Gao Li-Qun Zhang 

机构地区：[1]College of Science,Nanjing Forestry University,Nanjing 210037,China [2]State Key Laboratory of Organic-Inorganic Composites,Beijing University of Chemical Technology,Beijing 100029,China [3]Key Laboratory of Beijing City on Preparation and Processing of Novel Polymer Materials,Beijing University of Chemical Technology,Beijing 100029,China [4]School of Chemical Engineering and Technology,Sun Yat-sen University,Zhuhai 519082,China

出　　处：《Chinese Journal of Polymer Science》2021年第2期249-257,I0008,共10页高分子科学（英文版）

基　　金：financially supported by the National Natural Science Foundation of China (Nos. 21704003 and 51673013);the Foundation for Innovative Research Groups of the NSF of China (No. 51521062)。

摘　　要：The nanoparticle(NP) functionalization is an effective method for enhancing their compatibility with polymer which can influence the fracture property of the polymer nanocomposites(PNCs). This work aims to further understand the cavitation and crazing process, hoping to uncover the fracture mechanism on the molecular level. By adopting a coarse-grained molecular dynamics simulation, the fracture energy of PNCs first increases and then decreases with increasing the NP functionalization degree α while it shows a continuous increase with increasing the interaction εpA between polymer and modified beads. The bond orientation degree is first characterized which is referred to as the elongation. Meanwhile, the stress by polymer chains is gradually reduced with increasing the α or the εpA while that by NPs is enhanced.Furthermore, the percentage of stress by polymer chains first increases and then decreases with increasing the strain while that by NPs shows a contrast trend. Moreover, the number of voids is quantified which first increases and then decreases with increasing the strain which reflects their nucleation and coalescence process. The voids prefer to generate from the polymer-NP interface to the polymer matrix with increasing α o r εpA.As a result, the number of voids first increases and then decreases with increasing α while it continuously declines with the εpA. In summary, our work provides a clear understanding on how the NP functionalization influences the cavitation and crazing process during the fracture process.

关 键 词：Nanoparticle functionalization Cavitation and crazing Polymer nanocomposites Molecular dynamics simulation 

分 类 号：TQ317[化学工程—高聚物工业] TB33[一般工业技术—材料科学与工程]