Simulation and experiment on the effects and mechanism of variable-length restricted contact tool

Rujie Li, Peixuan Zhong, Yalong Zhang, Xueqin Pang
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Abstract

Difficult-to-machine materials such as stainless steel are widely used in the construction industry, because of their excellent mechanical properties and corrosion resistance. However, the poor tool-chip contact environment, severe tool wear, and heavy chip accumulation inhibit the machining efficiency. In this paper, 316L austenitic stainless steel was selected to investigate the effect of a variable-length restricted contact tool (VL-RCT), aiming at reducing the cutting temperature and increasing the tool life. A finite element simulation model of restricted contact cutting was established to investigate the machining parameters and restricted contact parameters on cutting performances and to clarify the mechanism of the VL-RCT in the cutting process. Additionally, cutting experiments were conducted to verify the cutting process mechanism. The results showed that the variable restricted contact structure efficiently reduced the cutting force and cutting temperature and improved the cutting performances of austenitic stainless steel. Both numerical simulation and cutting experiments reported that the trapezoidal restricted contact structure improved the cutting performance the best. Accordingly, this research provided theoretical guidance for the optimization of tool structure and the selection of cutting parameters, as well as a solid foundation for the future development of relevant design theories and methods for high-performance tools.
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变长受限接触工具的效果和机理的模拟与实验
不锈钢等难加工材料具有优异的机械性能和耐腐蚀性,因此被广泛应用于建筑行业。然而,刀具与切屑的接触环境恶劣、刀具磨损严重、切屑堆积严重等问题制约了加工效率。本文选取 316L 奥氏体不锈钢为研究对象,研究了可变长度限制接触刀具(VL-RCT)的效果,旨在降低切削温度,提高刀具寿命。本文建立了限制接触切削的有限元模拟模型,以研究加工参数和限制接触参数对切削性能的影响,并阐明 VL-RCT 在切削过程中的作用机理。此外,还进行了切削实验来验证切削过程机理。结果表明,可变限制接触结构有效降低了切削力和切削温度,改善了奥氏体不锈钢的切削性能。数值模拟和切削实验均表明,梯形受限接触结构对切削性能的改善效果最好。因此,该研究为优化刀具结构和选择切削参数提供了理论指导,也为今后开发高性能刀具的相关设计理论和方法奠定了坚实的基础。
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