仿生表面织构硅橡胶的微动磨损行为

IF 6.3 1区工程技术 Q1 ENGINEERING, MECHANICAL

Friction Pub Date : 2025-03-12 DOI:10.26599/frict.2025.9441000

Tengfei Zhang, Jie Su, Liaoliang Ke

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引用次数: 0

摘要

表面织构作为一种重要的表面工程技术，可以提高接触面的摩擦学性能。本文对具有仿生表面纹理的硅橡胶薄膜在球形压头作用下的微动磨损行为进行了实验研究。受人类指纹和树蛙脚趾垫的启发，在硅橡胶薄膜表面创建了具有三种不同纹理间隔的六角形环状纹理。考虑三种类型的压头：不锈钢，聚丙烯和硅橡胶。详细讨论了织构间距、位移幅值、法向力、频率和压头材料对微动磨损性能的影响。磨损量通过三维白光剖面仪测量。利用扫描电镜对织构表面的磨损形貌和微动磨损机理进行了分析。添加表面织构可以有效降低硅橡胶的摩擦系数。织构间距越小，COF减小越明显，比磨损率越低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Fretting wear behavior of silicone rubber with biomimetic surface texture

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Fretting wear behavior of silicone rubber with biomimetic surface texture

Surface texture, as an important surface engineering technique, can enhance the tribological properties of contact surfaces. This work presents an experimental investigation of the fretting wear behavior of silicone rubber films with a biomimetic surface texture under a spherical indenter. Inspired by human fingerprints and tree frog toe pads, hexagonal loop textures with three different texture spacings are created on the surface of silicone rubber films. Three types of indenters are considered: stainless steel, polypropylene, and silicone rubber. The impacts of the texture spacing, displacement amplitude, normal force, frequency, and indenter material on the fretting wear behavior are discussed in detail. The wear volume was measured via a three-dimensional white light profiler. The surface wear morphology and fretting wear mechanism of the textured surfaces were analyzed by scanning electron microscopy. Adding a surface texture can effectively decrease the coefficient of friction (COF) of silicone rubber. In addition, the smaller the texture spacing is, the more pronounced the COF decreases and the lower the specific wear rate.

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来源期刊

Friction Engineering-Mechanical Engineering

CiteScore

12.90

自引率

13.20%

发文量

324

审稿时长

13 weeks

期刊介绍： Friction is a peer-reviewed international journal for the publication of theoretical and experimental research works related to the friction, lubrication and wear. Original, high quality research papers and review articles on all aspects of tribology are welcome, including, but are not limited to, a variety of topics, such as: Friction: Origin of friction, Friction theories, New phenomena of friction, Nano-friction, Ultra-low friction, Molecular friction, Ultra-high friction, Friction at high speed, Friction at high temperature or low temperature, Friction at solid/liquid interfaces, Bio-friction, Adhesion, etc. Lubrication: Superlubricity, Green lubricants, Nano-lubrication, Boundary lubrication, Thin film lubrication, Elastohydrodynamic lubrication, Mixed lubrication, New lubricants, New additives, Gas lubrication, Solid lubrication, etc. Wear: Wear materials, Wear mechanism, Wear models, Wear in severe conditions, Wear measurement, Wear monitoring, etc. Surface Engineering: Surface texturing, Molecular films, Surface coatings, Surface modification, Bionic surfaces, etc. Basic Sciences: Tribology system, Principles of tribology, Thermodynamics of tribo-systems, Micro-fluidics, Thermal stability of tribo-systems, etc. Friction is an open access journal. It is published quarterly by Tsinghua University Press and Springer, and sponsored by the State Key Laboratory of Tribology (TsinghuaUniversity) and the Tribology Institute of Chinese Mechanical Engineering Society.