A simplified damage prediction framework for milling of unidirectional carbon fiber-reinforced plastics

IF 1.8 Q3 ENGINEERING, MANUFACTURING

Advanced Manufacturing: Polymer & Composites Science Pub Date : 2015-10-02 DOI:10.1080/20550340.2015.1117747

F. Islam, J. Ramkumar, A. S. Milani

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引用次数: 14

Abstract

Abstract This article presents a simple framework for predicting the occurrence of delamination during milling of unidirectional carbon-fiber-reinforced plastics (CFRPs), based on a concept of effective critical cutting zone. To validate the concept, sets of milling experiments were conducted on unidirectional CFRP samples of varying fiber orientations and the delamination signature was measured through microscopic images. By observing the damage extent for different fiber orientation angles and different fiber cutting angles for up-milled and down-milled edges, and correlating them with different material removal mechanisms, it has been shown that the damage mainly depends on the portion of the fiber cutting angles that lie within the effective critical milling zone. Both the delamination and the normal cutting forces were found to be strongly dependent on the range of angles in this zone. In addition, it is shown that the cutting force may be used as a good approximation to determine the effect of machining/process parameters on the ensuing delamination damage during milling of CFRPs. For the tested samples, the normal cutting force decreased with an increase in the cutting speed and it increased with an increase in the feed rate of the cutting tool.

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单向碳纤维增强塑料铣削损伤预测简化框架

摘要基于有效临界切削带的概念，提出了一种预测单向碳纤维增强塑料(cfrp)铣削过程中分层发生的简单框架。为了验证这一概念，对不同纤维取向的单向CFRP样品进行了一系列铣削实验，并通过显微图像测量了分层特征。通过观察不同纤维取向角和不同纤维切削角对上铣削和下铣削边缘的损伤程度，并将其与不同的材料去除机制相关联，表明损伤主要取决于纤维切削角位于有效临界铣削区域内的部分。发现分层和正常切削力都强烈依赖于该区域的角度范围。此外，切削力可以作为一个很好的近似来确定加工/工艺参数对cfrp铣削过程中随后的分层损伤的影响。在所测试样品中，法向切削力随切削速度的增加而减小，随刀具进给速度的增加而增大。

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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