Investigation of the Influence of Built-Up Layer on the Stress State in the Primary Shear Zone Using Particle Image Velocimetry Analysis

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS

International Journal of Automation Technology Pub Date : 2023-11-05 DOI:10.20965/ijat.2023.p0552

Xiaoqi Song, Kenji Suzuki, Weiming He, Tohru Ihara

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Abstract

In this study, a novel methodology was proposed to investigate the influence of the built-up layer (BUL) formation on the stress state distribution in the primary shear zone (PSZ) using analytical model and particle image velocimetry (PIV) analysis. Orthogonal cutting tests were performed under a range of uncut chip thicknesses and cutting speeds using two uncoated cemented carbide tools with different rake angles. A series of shear strain, shear strain rate, and velocity distributions in PSZ were obtained by PIV analysis. Al7075-T6511 was used as the workpiece. Subsequently, the influences of cutting conditions on the BUL/built-up edge (BUE) formation and the plastic deformation in PSZ were investigated. Using these results, the parameters of the proposed analytical model were identified, and the influences of the BUL/BUE formation on the stress state distribution were investigated. From the experimental results, it was found that in the cutting speed range below 2 m/min, only BUE is formed, and the uncut chip thickness and tool rake angle have a significant influence on its formation. The agreement between the measured and calculated results demonstrated the effectiveness of the proposed methodology. The results confirmed that the BUE formation has little effect on the bell-shaped distribution of shear strain rate, but has a significant influence on the thickness of PSZ, chip sliding velocity near the outlet boundary of PSZ, maximum shear strain rate, stress state, and temperature in PSZ. It was also confirmed that the stress triaxiality plays an important role in the BUE formation. These results provide a deeper understanding of the BUL/BUE formation.

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利用粒子图像测速分析研究堆积层对主剪切带应力状态的影响

本文提出了一种新的方法，利用解析模型和粒子图像测速(PIV)分析来研究堆积层(BUL)的形成对主剪切带(PSZ)应力状态分布的影响。采用两种不同前倾角的未涂覆硬质合金刀具，在不同切削切屑厚度和切削速度下进行了正交切削试验。通过PIV分析，得到了一系列的剪切应变、剪切应变速率和速度分布。采用Al7075-T6511作为工件。在此基础上，研究了切削条件对聚乙基复合材料中聚乙基复合材料(BUE)形成和塑性变形的影响。利用这些结果，确定了所提出的解析模型的参数，并研究了BUL/BUE地层对应力状态分布的影响。实验结果发现，在2 m/min以下的切削速度范围内，只形成BUE，未切削切屑厚度和刀具前倾角对其形成有显著影响。实测结果与计算结果吻合，证明了所提方法的有效性。结果证实，BUE的形成对剪切应变速率钟形分布影响不大，但对PSZ厚度、PSZ出口边界附近切屑滑动速度、最大剪切应变速率、应力状态和PSZ内温度有显著影响。同时也证实了应力三轴性在BUE地层中起重要作用。这些结果提供了对BUL/BUE地层的更深入了解。

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

International Journal of Automation Technology AUTOMATION & CONTROL SYSTEMS-

CiteScore

2.10

自引率

36.40%

发文量