Inicio  /  Applied Sciences  /  Vol: 9 Par: 14 (2019)  /  Artículo
ARTÍCULO
TITULO

Interfacial Characteristics of Boron Nitride Nanosheet/Epoxy Resin Nanocomposites: A Molecular Dynamics Simulation

Jiacai Li    
Jiming Chen    
Mingxiao Zhu    
Henggao Song and Hongyu Zhang    

Resumen

The interface between nanofillers and matrix plays a key role in determining the properties of nanocomposites, but the interfacial characteristics of nanocomposites such as molecular structure and interaction strength are not fully understood yet. In this work, the interfacial features of a typical nanocomposite, namely epoxy resin (EP) filled with boron nitride nanosheet (BNNS) are investigated by utilizing molecular dynamics simulation, and the effect of surface functionalization is analyzed. The radial distribution density (RDD) and interfacial binding energy (IBE) are used to explore the structure and bonding strength of nanocomposites interface. Besides, the interface compatibility and molecular chain mobility (MCM) of BNNS/EP nanocomposites are analyzed by cohesive energy density (CED), free volume fraction (FFV), and radial mean square displacement (RMSD). The results indicate that the interface region of BNNS/EP is composed of three regions including compact region, buffer region, and normal region. The structure at the interfacial region of nanocomposite is more compact, and the chain mobility is significantly lower than that of the EP away from the interface. Moreover, the interfacial interaction strength and compatibility increase with the functional density of BNNS functionalized by CH3?(CH2)4?O? radicals. These results adequately illustrate interfacial characteristics of nanocomposites from atomic level.

 Artículos similares

       
 
Peng Yu, Jie Dong, Haisong Liu, Rui Xu, Rujie Wang, Meijun Xu and Hongjun Liu    
Pile foundations of offshore structures are often subjected to cyclic loads under storm loads, thus reducing their vertical bearing capacity. Therefore, studying the cyclic shear behavior of the soil?structure interface is important for maintaining the s... ver más

 
Shanshan Hou, Yugui Yang, Yong Chen, Dawei Lei and Chengzheng Cai    
The existence of fracture flow has an undesirable effect on the creation of the frozen wall. Brine and liquid nitrogen combined freezing technology can ensure the safety of freezing engineering, reduce the construction period and save cost. Considering t... ver más

 
Zeying Bao and Fulin Shang    
The ideal mechanical shear properties and sliding characteristics of c-ZrO2(001)/a-Al2O3(11¯02" role="presentation">11_0211¯02 1 1 ¯ 02 ) interfaces are examined through simulated shear deformations using first-principles calculations. We invest... ver más
Revista: Applied Sciences

 
Zhigang Wu, Xue Deng, Lifen Li, Xuedong Xi, Meifen Tian, Liping Yu and Bengang Zhang    
Understanding the interfacial changes of wood during heat treatment can facilitate the improvement of the bonding and coating processes of heat-treated wood. Steam was used as the medium to modify Pinus massoniana wood through heat treatment at 160, 180,... ver más
Revista: Coatings

 
Hawa Ringkai, Khairul Fikri Tamrin, Nadeem Ahmed Sheikh and Shahrol Mohamaddan    
Water-in-oil droplets have huge importance in chemical and biotechnology applications, despite their difficulty being produced in microfluidics. Moreover, existing studies focus more on the different shape of microchannels instead of their size, which is... ver más
Revista: Applied Sciences