Cutting Forces Simulation for End Milling

IF 0.6

Zhurnal inzhenernikh nauk Pub Date : 2023-01-01 DOI:10.21272/jes.2023.10(2).a4

Yuri Petrakov, Oleksandr Okhrimenko, Maksim Sikailo, Artur Myhovych

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引用次数: 0

Abstract

The cutting force in end milling is the essential perturbation of the machining system that limits the productivity of the process. Therefore, forecasting the cutting force when assigning the processing mode and the geometry of the allowance layer to be cut is an urgent task that requires an operational tool for its solution. The method of calculating the cutting force is presented, based on a mechanistic approach, when the geometric ratios of the cutter blades’ positions on the sweep determine the thickness of the undeformed chip. The developed algorithm calculates the cutting force by double integration, first by the length of the cutting edge and then by the number of such edges. The algorithm also allows the simulating of the outrun of the mill on the cutting force and its components. The created application program visualizes the simulating process by oscillograms of the cutting force components for both up and down milling. Experimental studies, in general, proved the adequacy of the developed modeling method. The created program is a tool for operational forecasting of the cutting force during the technological preparation of the end milling process in production.

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立铣削切削力仿真

立铣削中的切削力是加工系统的基本扰动，它限制了加工的生产率。因此，在确定加工方式和待切割余量层的几何形状时预测切削力是一项迫切的任务，需要一种可操作的工具来解决。提出了一种基于机械方法的切削力计算方法，该方法利用刀片在切削齿上位置的几何比来确定未变形切屑的厚度。该算法采用双积分法计算切削力，首先计算切削刃的长度，然后计算切削刃的个数。该算法还可以模拟铣刀的转速对切削力及其分量的影响。所创建的应用程序通过上下铣削切削力分量的示波图将仿真过程可视化。总的来说，实验研究证明了所开发的建模方法的充分性。所创建的程序是在生产端铣削工艺准备过程中对切削力进行操作预测的工具。

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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