Computational Studies of Nano-Mechanics of Ultrathin Perfluoropolyether Films

IEEA '18 Pub Date : 2018-03-28 DOI:10.1145/3208854.3208879
D. Tang, Bei Li, Anqi Lei, Shang-yu Huang, Wei Liu, Hanxing Liu
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Abstract

In this work, molecular dynamics (MD) simulation was performed to investigate the nano-mechanics (i.e., compression and tension processes) of confined ultrathin perfluoropolyether (PFPE) lubricant films at near-contact head disk interface. During compression process, the lubricant film would transfer to the slider even before a full contact occurs; while during tension process, an apparent fluid bridge was observed. The entangled lubricant chains are gradually straightened until the film breaks apart into two parts in the nearly end of the tension process. The normal stress profiles of PFPEs were also evaluated in the two processes, in which the hypothesis phenomenon indicates the irreversible nature of the nano-mechanics of PFPEs.
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超薄全氟聚醚薄膜纳米力学的计算研究
在这项工作中,进行了分子动力学(MD)模拟,研究了近接触磁头磁盘界面处密闭超薄全氟聚醚(PFPE)润滑膜的纳米力学(即压缩和拉伸过程)。在压缩过程中,润滑膜在完全接触之前就会转移到滑块上;在拉伸过程中,观察到明显的流体桥。缠绕在一起的润滑油链逐渐拉直,直到薄膜在张力过程接近尾声时断裂成两部分。在两个过程中对PFPEs的法向应力分布进行了评价,其中假设现象表明了PFPEs纳米力学的不可逆性质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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IEEA '18
IEEA '18
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