Study on a grinding force model of a variable grinding contact area during knife-edge surface grinding

IF 1 4区工程技术 Q4 ENGINEERING, MECHANICAL

Mechanical Sciences Pub Date : 2023-12-13 DOI:10.5194/ms-14-531-2023

Baohua Yu, Tianfeng Lou, Dongwei Chen, Jie Rui, Wenliang Li, Yuepeng Chen

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Abstract

Abstract. In the context of non-standard blade geometries of knife-like tools with tapered cutting edges where the width of the blade surface varies with feed, there is limited research on predicting grinding forces considering the changing contact line. To enhance the accuracy of predicting grinding forces during the blade surface grinding of knife-like tools, a novel analytical-regression correction method is proposed. This method employs an analytical approach to analyze the varying contact line between the grinding wheel and the tool during grinding, enabling the determination of irregularly shaped grinding contact zones. By introducing exponential coefficients related to the grinding contact line, a regression analysis is employed to refine a variable edge-width grinding force model. In comparison to the conventional constant contact line blade surface grinding force prediction, this model is better suited for non-standard blade geometries of knife-like tools in grinding processes. Results indicate that the average relative error between the predicted values from the variable edge-width grinding force model and the actual measurements remains within 9 %, thereby validating the model's effectiveness in predicting grinding forces.

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刀刃平面磨削过程中可变磨削接触区的磨削力模型研究

摘要对于具有锥形切削刃的非标准刀类工具的刀刃几何形状，即刀刃表面宽度随进给量变化而变化的情况，考虑到接触线变化而预测磨削力的研究十分有限。为了提高刀类工具刀片表面磨削过程中磨削力预测的准确性，我们提出了一种新颖的分析-回归修正方法。该方法采用分析方法来分析磨削过程中砂轮和刀具之间不断变化的接触线，从而确定不规则形状的磨削接触区。通过引入与磨削接触线相关的指数系数，采用回归分析来完善可变边宽磨削力模型。与传统的恒定接触线刀片表面磨削力预测相比，该模型更适用于磨削过程中刀类工具的非标准刀片几何形状。结果表明，可变刃宽磨削力模型的预测值与实际测量值之间的平均相对误差保持在 9% 以内，从而验证了该模型在预测磨削力方面的有效性。

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

Mechanical Sciences ENGINEERING, MECHANICAL-

CiteScore

2.20

自引率

7.10%

发文量

审稿时长

29 weeks

期刊介绍： The journal Mechanical Sciences (MS) is an international forum for the dissemination of original contributions in the field of theoretical and applied mechanics. Its main ambition is to provide a platform for young researchers to build up a portfolio of high-quality peer-reviewed journal articles. To this end we employ an open-access publication model with moderate page charges, aiming for fast publication and great citation opportunities. A large board of reputable editors makes this possible. The journal will also publish special issues dealing with the current state of the art and future research directions in mechanical sciences. While in-depth research articles are preferred, review articles and short communications will also be considered. We intend and believe to provide a means of publication which complements established journals in the field.