摩擦学
润滑
材料科学
编织
雷诺方程
计算机模拟
能源消耗
机械工程
摩擦系数
纹理(宇宙学)
机械
复合材料
计算机科学
工程类
模拟
雷诺数
人工智能
物理
电气工程
图像(数学)
湍流
作者
Wang Cheng,Jianlin Cai,Gong Cheng,Jiaxu Wang,Dongxing Tang
出处
期刊:Sustainability
[Multidisciplinary Digital Publishing Institute]
日期:2023-08-30
卷期号:15 (17): 13054-13054
被引量:2
摘要
Rail transportation has dramatically improved travel convenience, but it has also led to environmental pollution and energy consumption issues. These challenges can be partially addressed by reducing friction loss in the mechanical transmission of rail systems. This paper examines the tribological properties of bionic-textured surfaces inspired by snake- and sharkskin. This study focuses on generating bionic textured surfaces with randomly distributed peaks through numerical simulation and connecting them to a transient Reynolds equation and friction fatigue model. The bionic surface wear lubrication model considers the lubricating film’s thickness and contact pressure obtained from the GT model. The results reveal that the existence of a bionic texture can reduce the friction coefficient and wear amount on the contact surface. The findings of this study not only offer a potential solution for reducing energy consumption and emissions in intelligent rail transit systems but also hold promise for providing further insights into the numerical simulation of bionic weaving and the investigation of tribological characteristics.
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