Effect of Composite Bionic Micro-Texture on Cutting Performance of Tools

IF 3.1 3区 工程技术 Q2 ENGINEERING, MECHANICAL
Tiantian Xu, Chun-Yang Ma, Hu Shi, Kai Xiao, Jinpeng Liu, Qinghua Li
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引用次数: 0

Abstract

Dry cutting is an effective method to realize the concept of green cutting today. However, in the process of cutting bearing steel, the high temperatures and high pressures produced by the cutting tool and chip under dry friction seriously affect the machining performance of the tool. Therefore, a bionic microstructure tool based on bionics is proposed to improve the cutting performance and reduce friction by changing the size parameters of the microstructure. On the basis of finite element simulation and cutting tests, the cutting force, surface roughness, and chip shape are used to evaluate the cutting performance. It is found that composite bionic micro-textured tools have a significantly reduced cutting force compared with non-micro-textured tools; composite bionic micro-textured tools lead to a reduction in surface roughness of 10–25%; and composite bionic micro-textured tools are more prone to enhancing the curling and breaking of chips. In addition, with the increase in the microstructure area occupancy, the cutting performance of the tool was also significantly improved. Moreover, it was found that the cutting performance of the tool was improved when the area occupancy of the micro-texture on the front face of the tool was increased.
复合仿生微观纹理对刀具切削性能的影响
干切削是当今实现绿色切削理念的有效方法。然而,在切削轴承钢的过程中,干摩擦下刀具与切屑产生的高温高压严重影响了刀具的加工性能。因此,提出了一种基于仿生学的微结构刀具,通过改变微结构的尺寸参数来提高切削性能,降低摩擦。在有限元模拟和切削试验的基础上,利用切削力、表面粗糙度和切屑形状来评价切削性能。研究发现,与非微观纹理刀具相比,复合仿生微观纹理刀具的切削力明显降低;复合仿生微观纹理刀具的表面粗糙度降低了 10%-25%;复合仿生微观纹理刀具更容易增强切屑的卷曲和断裂。此外,随着微结构面积占有率的增加,刀具的切削性能也得到显著改善。此外,研究还发现,当刀具正面的微纹理面积占有率增加时,刀具的切削性能也会得到改善。
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来源期刊
Lubricants
Lubricants Engineering-Mechanical Engineering
CiteScore
3.60
自引率
25.70%
发文量
293
审稿时长
11 weeks
期刊介绍: This journal is dedicated to the field of Tribology and closely related disciplines. This includes the fundamentals of the following topics: -Lubrication, comprising hydrostatics, hydrodynamics, elastohydrodynamics, mixed and boundary regimes of lubrication -Friction, comprising viscous shear, Newtonian and non-Newtonian traction, boundary friction -Wear, including adhesion, abrasion, tribo-corrosion, scuffing and scoring -Cavitation and erosion -Sub-surface stressing, fatigue spalling, pitting, micro-pitting -Contact Mechanics: elasticity, elasto-plasticity, adhesion, viscoelasticity, poroelasticity, coatings and solid lubricants, layered bonded and unbonded solids -Surface Science: topography, tribo-film formation, lubricant–surface combination, surface texturing, micro-hydrodynamics, micro-elastohydrodynamics -Rheology: Newtonian, non-Newtonian fluids, dilatants, pseudo-plastics, thixotropy, shear thinning -Physical chemistry of lubricants, boundary active species, adsorption, bonding
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