Numerical Simulation and Experimental Validation of Cutting Mechanism of Carbon Fiber-Reinforced Thermoplastic Composites
Xingfeng Cao, Xiaozhong Wu, Xianming Meng, Sai Zhang, Tong Song, Pengfei Ren, Tao Li

TL;DR
This study uses simulations and experiments to understand how cutting affects carbon fiber composites, improving manufacturing processes.
Contribution
An innovative micro-scale numerical model is developed to analyze cutting mechanisms and surface integrity in carbon fiber composites.
Findings
The model accurately captures micro-scale damage evolution during cutting of carbon fiber-reinforced thermoplastic composites.
Fiber orientation significantly influences fracture modes, cutting forces, and surface integrity.
Experimental validation confirms the model's accuracy in predicting material removal mechanisms and damage patterns.
Abstract
Carbon fiber-reinforced thermoplastic composites (CFRTP) are widely used in automotive, aerospace, and other industries due to their lightweight, high specific strength, recyclability, and superior thermal properties. However, their non-homogeneity and anisotropy present challenging machining characteristics, often leading to damage that deteriorates component performance. It is imperative to conduct numerical simulation and experimental studies on CFRTP to systematically analyze the relationship between cutting mechanisms and the surface integrity of CFRTP. This study aimed to establish an innovative three-dimensional micro-scale cutting numerical model that integrates the differentiated constitutive behaviors and damage criteria of carbon fibers, matrices, and fiber–matrix interfaces—enabling precise characterization of micro-scale damage evolution during cutting. By combining…
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Taxonomy
TopicsAdvanced machining processes and optimization · Epoxy Resin Curing Processes · Mechanical Behavior of Composites
