Reduction of sawing forces in bone cutting: Innovative oscillating saw mechanism based on trajectory analysis

IF 6.7 2区材料科学 Q1 ENGINEERING, INDUSTRIAL

Journal of Materials Processing Technology Pub Date : 2024-08-22 DOI:10.1016/j.jmatprotec.2024.118563

Han Wang, Urara Satake, Toshiyuki Enomoto

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引用次数: 0

Abstract

Oscillating bone sawing is a critical procedure in orthopedic surgery. However, conventional oscillating saw mechanisms often result in excessive sawing forces, which are detrimental to implant fixation and postoperative patient recovery. Therefore, there is an urgent need to design a new oscillating saw mechanism to reduce sawing forces during surgery, including avoiding ineffective impact forces on bone cutting and preventing ploughing forces caused by negative rake angle contact with the workpiece. In this study, an innovative oscillating sawing mechanism is proposed to effectively inhibit the generation and accumulation of impact forces, avoid negative rake angle contact with the workpiece. Oscillating sawing experiments under various cutting conditions demonstrated that the proposed mechanism significantly reduces cutting forces and prevents defects due to crack propagation of the bone and saw teeth damage. The proposed design offers an effective mechanism to achieve small and stable sawing forces in bone sawing surgery, and it inspires tailored oscillating saw techniques for specific machining needs, such as thin deep groove cutting.

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减少骨切割中的锯切力量：基于轨迹分析的创新摆动锯机制

摆动骨锯是骨科手术中的一项重要程序。然而，传统的摆动锯机制往往导致锯切力过大，不利于植入物的固定和术后患者的恢复。因此，迫切需要设计一种新的摆动锯机构，以减少手术中的锯切力，包括避免骨切割时的无效冲击力，以及防止负前角接触工件时产生的犁力。本研究提出了一种创新的摆动锯机构，可有效抑制冲击力的产生和积累，避免与工件的负前角接触。在各种切削条件下进行的摆动锯实验表明，所提出的机构能显著降低切削力，防止因骨裂纹扩展和锯齿损坏而造成的缺陷。所提出的设计为在骨锯手术中实现较小而稳定的锯切力提供了一种有效的机制，并启发了针对特定加工需求（如薄型深槽切割）定制摆动锯技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Materials Processing Technology 工程技术-材料科学：综合

CiteScore

12.60

自引率

4.80%

发文量

403

审稿时长

29 days

期刊介绍： The Journal of Materials Processing Technology covers the processing techniques used in manufacturing components from metals and other materials. The journal aims to publish full research papers of original, significant and rigorous work and so to contribute to increased production efficiency and improved component performance. Areas of interest to the journal include: • Casting, forming and machining • Additive processing and joining technologies • The evolution of material properties under the specific conditions met in manufacturing processes • Surface engineering when it relates specifically to a manufacturing process • Design and behavior of equipment and tools.