关于加工 Mg-Ca1.0 合金时产生的切削力的一些研究

Journal of Graphic Era University Pub Date : 2024-04-16 DOI:10.13052/jgeu0975-1416.1215

K. Jagtap, Suresh Sanap

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引用次数: 0

摘要

镁合金具有与骨骼相似的特性，是目前公认的可生物降解材料。Mg-Ca1.0 是一种最新开发的可生物降解物质，不会在体内产生任何有害物质。它经常用于骨植入物的固定螺钉和支撑板。迄今为止，有关可生物降解镁钙合金加工的研究成果还很少。这项研究的目的是评估面铣过程中产生的切削力。实验工作采用一次一个因素的策略来评估工艺因素如何影响性能属性。当前的研究使用 CVD 金刚石涂层刀片，考察在干燥加工环境下进行面铣时，切削深度、进给量和切削速度如何影响径向（Fx）、切向（Fy）和轴向（Fz）切削力。

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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Some Studies on Cutting Force Generation in Machining of Mg-Ca1.0 Alloy

Magnesium alloy has qualities that are similar to those of bone, it is now commonly acknowledged as a biodegradable material. Mg-Ca1.0 is a recently developed biodegradable substance that doesn’t cause any harmful substances to be produced in the body. It is frequently utilized in fixation screws and supporting plates for bone implants. To far, very little research has been published on the machining of biodegradable Magnesium Calcium alloy. This investigation’s goal is to evaluate the cutting forces produced during a face milling procedure. The experimental work used a one-factor-at-a-time strategy to assess how process factors affect performance attributes. The current study uses a CVD diamond-coated insert to examine how the depth of cut, feed rate, and cutting speed affect the radial (Fx), tangential (Fy), and axial (Fz) cutting forces during face milling in a dry machining environment.

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Journal of Graphic Era University

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