Study on Friction and Lubrication Characteristics of Surface with Unidirectional Convergence Texture

Li, Chenchen; Yang, Xuefeng; Wang, Shouren; Wang, Yanjun; Lu, Can‐Zhong; Cao, Jiliang

doi:10.3390/coatings9120780

Cited by 14 publications

(7 citation statements)

References 14 publications

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“…The coefficient of friction was analyzed on the textured surface at different angles and circumferential directions at a time, compared with the bare specimen depicted in Figure 8 c,d. Compared to standard textures with dimples or grooves, 3D structures with relatively deep layers allow more lubricant to be squeezed out and stored, magnifying the secondary lubrication effect to minimize wear and friction [ 196 ]. Therefore, the research studies concluded that under severe lubrication conditions of relatively low speed and high load, the effect of scaly textures on friction control was more substantial.…”

Section: Biomimetic Surfaces Inspired By Animalsmentioning

confidence: 99%

Tribological Behavior of Bioinspired Surfaces

Шарма

Grewal

2023

Biomimetics

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Energy losses due to various tribological phenomena pose a significant challenge to sustainable development. These energy losses also contribute toward increased emissions of greenhouse gases. Various attempts have been made to reduce energy consumption through the use of various surface engineering solutions. The bioinspired surfaces can provide a sustainable solution to address these tribological challenges by minimizing friction and wear. The current study majorly focuses on the recent advancements in the tribological behavior of bioinspired surfaces and bio-inspired materials. The miniaturization of technological devices has increased the need to understand micro- and nano-scale tribological behavior, which could significantly reduce energy wastage and material degradation. Integrating advanced research methods is crucial in developing new aspects of structures and characteristics of biological materials. Depending upon the interaction of the species with the surrounding, the present study is divided into segments depicting the tribological behavior of the biological surfaces inspired by animals and plants. The mimicking of bio-inspired surfaces resulted in significant noise, friction, and drag reduction, promoting the development of anti-wear and anti-adhesion surfaces. Along with the reduction in friction through the bioinspired surface, a few studies providing evidence for the enhancement in the frictional properties were also depicted.

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Section: Biomimetic Surfaces Inspired By Animalsmentioning

confidence: 99%

Tribological Behavior of Bioinspired Surfaces

Шарма

Grewal

2023

Biomimetics

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“…It was found that the lubricant film thickness formed on the V-shaped microtextures was greater than those of the circular and grooved surfaces. Li et al (2019) investigated the effects of V-shaped, circular and triangular microtextures on the friction properties of cemented carbide surfaces through numerical simulations and friction wear tests. The results showed that the V-shaped microtextures had the lowest friction coefficient.…”

Section: Introductionmentioning

confidence: 99%

Friction and wear performances of 7075 aluminum alloy surface with V-shaped microtexture via numerical simulation and experimental characterizations

Ding,

Qiao,

Piao

2024

ILT

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Purpose The purpose of this study is to design and process the optimal V-shaped microstructure for 7075 aluminum alloy and reveal its wear resistance mechanism and performance. Design/methodology/approach The hydrodynamic pressure lubrication models of the nontextured, V-shaped, circular and square microtextures are established. The corresponding oil film pressure distributions are explored. The friction and wear experiments are conducted on a rotating device. The effects of the microstructure shapes and sizes on the wear mechanisms are investigated via the friction coefficients and surface morphologies. Findings In comparison, the V-shaped microtexture has the largest oil film carrying capacity and the lowest friction coefficient. The wear mechanism of the V-shaped microtexture is dominated by abrasive and adhesive wear. The V-shaped microtexture has excellent wear resistance under a side length of 300 µm, an interval of 300 µm and a depth of 20 µm. Originality/value This study is conductive to the design of wear-resistant surfaces for friction components.

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“…Marine engineering equipment materials will be subject to a variety of loads during the installation and service period, and will also be subject to corrosion caused by seawater or/and oil and gas media, as well as the role of low or high-temperature environments that may be encountered. And 316L stainless steel has a very wide range of applications in marine engineering equipment because of its excellent corrosion resistance, good resistance to chloride erosion, and high temperature and pressure resistance [1,2]. However, due to the low surface hardness and load-bearing capacity of 316L stainless steel, poor wear resistance and other issues limit the friction-matching parts' application [3].…”

Section: Introductionmentioning

confidence: 99%

Effect of laser texturing bulges on tribological properties of 316L stainless steel

Li¹,

Liu²,

Duan³

et al. 2023

Surf. Topogr.: Metrol. Prop.

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The laser surface texture process will inevitably produce the edge of material surface texture bulges. Currently, laser processing bulges are generally polished directly, but this method ignores its impact on the friction pairs. In this paper, the tribological properties of polished and unpolished textured surfaces were investigated under dry friction, oil lubrication, and seawater lubrication conditions using three shapes of texture (grooves, square pits, and round pits) prepared on the surface of 316L stainless steel. The results show that the polished surface of 316L stainless steel texture increases wears, and the friction mechanism is mainly adhesive wear, while the unpolished surface of the texture has less wear, and the friction mechanism is mainly abrasive wear. The method and principle of using machining bulges to improve the wear resistance of friction pairs are discussed to address the differences in the tribological performance of entire friction pairs due to the influence of machining bulges of different shapes of texture.

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Study on Friction and Lubrication Characteristics of Surface with Unidirectional Convergence Texture

Cited by 14 publications

References 14 publications

Tribological Behavior of Bioinspired Surfaces

Tribological Behavior of Bioinspired Surfaces

Friction and wear performances of 7075 aluminum alloy surface with V-shaped microtexture via numerical simulation and experimental characterizations

Effect of laser texturing bulges on tribological properties of 316L stainless steel

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