Platform Technology Lab, Samsung Advanced Institute of Technology, 130 Samsung-ro, Suwon, Gyeonggi-do, 443-803, Republic of Korea.
Science and Technology Division, Corning Incorporated, One Science Center Drive, Corning, New York, 14831, United States.
Sci Rep. 2017 Sep 5;7(1):10475. doi: 10.1038/s41598-017-10994-8.
This manuscript provides a comprehensive study of adhesion behavior and its governing mechanisms when polyimide undergoes various modes of detachment from silica glass. Within the framework of steered molecular dynamics, we develop three different adhesion measurement techniques: pulling, peeling, and sliding. Such computational methodologies can be applied to investigate heterogeneous materials with differing interfacial adhesion modes. Here, a novel hybrid potential involving a combination of the INTERFACE force field in conjunction with ReaxFF and including Coulombic and Lennard-Jones interactions is employed to study such interfaces. The studies indicate that the pulling test requires the largest force and the shortest distance to detachment as the interfacial area is separated instantaneously, while the peeling test is observed to exhibit the largest distance for detachment because it separates via line-by-line adhesion. Two kinds of polyimides, aromatic and aliphatic type, are considered to demonstrate the rigidity dependent adhesion properties. The aromatic polyimide, which is more rigid due to the stronger charge transfer complex between chains, requires a greater force but a smaller distance at detachment than the aliphatic polyimide for all of the three methodologies.
本文全面研究了聚酰亚胺在不同模式下从二氧化硅玻璃上脱落后的粘附行为及其控制机制。在导向分子动力学的框架内,我们开发了三种不同的粘附测量技术:拉伸、剥离和滑动。这种计算方法可以应用于研究具有不同界面粘附模式的非均质材料。在这里,采用了一种新的混合势,该混合势涉及结合 INTERFACE 力场以及 ReaxFF 并包括库仑和 Lennard-Jones 相互作用,用于研究这种界面。研究表明,由于瞬间分离界面面积,拉伸测试需要最大的力和最短的分离距离,而剥离测试的分离距离最大,因为它通过线对线的粘附分离。考虑了两种聚酰亚胺,芳香族和脂肪族,以展示刚性依赖的粘附特性。芳香族聚酰亚胺由于链之间更强的电荷转移复合物而更具刚性,与脂肪族聚酰亚胺相比,对于所有三种方法,它在分离时需要更大的力但更小的距离。
