Milling process study, assuming estimation of cutting force

2011 IEEE International Symposium on Assembly and Manufacturing (ISAM) Pub Date : 2011-05-25 DOI:10.1109/ISAM.2011.5942363

V. Gylienė, V. Ostaševičius, A. Sergent

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引用次数: 1

Abstract

The paper presents results of research of a milling process, which include experimental studies associated with determination of cutting forces. Cutting depth is a parameter that was varied in the course of the measurements. Analytical models were constructed for cutting force prediction on the basis of experimental data obtained for tool geometry, cross-section of removed material layer and cutting regimes. A tool with two inserts was used for milling experiments: during cutting process one insert was removing the material layer, while the other was idle. Analytical models for cutting force evaluation were developed for a single cutting insert. The accuracy of the models was improved by taking into account the specific cutting pressure that was determined experimentally. Chip cross-section varies in the course of the milling process therefore the models allow to estimate cutting forces by adopting the assumption of average chip thickness. Finally, a finite element model was built taking into account the magnitude of material cross-section that is removed during milling operation.

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铣削过程的研究，假设切削力的估计

本文介绍了铣削过程的研究结果，其中包括与切削力测定有关的实验研究。切削深度是在测量过程中变化的参数。基于刀具几何形状、去除材料层截面和切削方式的实验数据，建立了切削力预测的解析模型。使用带有两个刀片的刀具进行铣削实验:在切削过程中，一个刀片去除材料层，而另一个刀片闲置。建立了单个切削齿切削力评估的分析模型。考虑了实验确定的比切削压力，提高了模型的精度。铣削过程中切屑的横截面是变化的，因此该模型允许采用平均切屑厚度的假设来估计切削力。最后，建立了考虑铣削过程中材料横截面偏移量的有限元模型。

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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2011 IEEE International Symposium on Assembly and Manufacturing (ISAM)

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