Cutting performance optimization and experimental research of indexable insert drill

IF 4.2 2区 工程技术 Q2 ENGINEERING, MANUFACTURING Advances in Manufacturing Pub Date : 2024-07-30 DOI:10.1007/s40436-024-00507-y
Yun-Song Lian, Min Zhang, Xiao-Hui Chen, Shu-Wen Peng, Liang-Liang Lin, Chao Liu, Xu-Yang Chu, Wei Zhou
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Abstract

In this study, the entire process of entry-drilling cutting and steady-state cutting of indexable insert drills was investigated to address challenges, such as vibration, chipping, and poor machining quality, during the cutting process. The research involved the utilization of theoretical analysis and simulation to examine the three-stage force of entry drilling and steady-state force of drilling bodies with various lap structures. Different parameters of the lap structure were analyzed to understand their impact on the direction of the cutting force, emphasizing that the force direction was influenced more by lap structure than the size of the cutting force. Data on radial force, axial force, hole diameter, hole wall roughness, and drill scraping were obtained from experimental cutting of carbon and stainless steel. The performance of different lap structures was evaluated based on these parameters. The experimental results revealed that the radial force in the given environment was most significantly impacted by the height difference between the central and peripheral insert. This was followed by the central insert deflection angle α2 and peripheral insert deflection angle α1. A larger deflection angle β resulted in a skewed radial force direction toward the outermost end of the peripheral insert, minimizing drill body scraping and increasing radial force. Furthermore, a substantial increase in radial force and axial force was observed with an increase in feed, while these forces were not significantly affected by the increase in cutting speed. Additionally, the hole diameter and hole wall roughness after cutting increased with the rise in feed.

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可转位刀片钻的切削性能优化与实验研究
本研究对可转位刀片钻头的切入钻削和稳态切削的整个过程进行了研究,以解决切削过程中的振动、崩边和加工质量差等难题。该研究利用理论分析和仿真技术,考察了不同搭接结构的钻头钻孔三阶段力和钻孔体的稳态力。通过分析搭接结构的不同参数,了解它们对切削力方向的影响,并强调切削力方向受搭接结构的影响比切削力大小的影响更大。通过对碳钢和不锈钢的切削实验,获得了有关径向力、轴向力、孔直径、孔壁粗糙度和钻头刮痕的数据。根据这些参数评估了不同搭接结构的性能。实验结果表明,在特定环境下,中心刀片和外围刀片的高度差对径向力的影响最大。其次是中心插入件偏转角 α2 和外围插入件偏转角 α1。偏转角β越大,径向力方向就越偏向外围刀片的最外端,从而最大限度地减少了钻体刮伤,增加了径向力。此外,随着进给量的增加,径向力和轴向力也大幅增加,而切削速度的增加对这些力的影响不大。此外,切削后的孔径和孔壁粗糙度也随着进给量的增加而增加。
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来源期刊
Advances in Manufacturing
Advances in Manufacturing Materials Science-Polymers and Plastics
CiteScore
9.10
自引率
3.80%
发文量
274
期刊介绍: As an innovative, fundamental and scientific journal, Advances in Manufacturing aims to describe the latest regional and global research results and forefront developments in advanced manufacturing field. As such, it serves as an international platform for academic exchange between experts, scholars and researchers in this field. All articles in Advances in Manufacturing are peer reviewed. Respected scholars from the fields of advanced manufacturing fields will be invited to write some comments. We also encourage and give priority to research papers that have made major breakthroughs or innovations in the fundamental theory. The targeted fields include: manufacturing automation, mechatronics and robotics, precision manufacturing and control, micro-nano-manufacturing, green manufacturing, design in manufacturing, metallic and nonmetallic materials in manufacturing, metallurgical process, etc. The forms of articles include (but not limited to): academic articles, research reports, and general reviews.
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