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Thermal-mechanical coupling in drilling high-performance CFRP: Scale-span modeling and experimental validation

Yong Liu, Zitao Pan, Hao Zhang, Xuwen Jing, Honggen Zhou, Yong Chen

2024Composite Structures23 citationsDOIOpen Access PDF

Abstract

The focus of this study is to explore a scale-span thermal–mechanical coupling method for predicting the dynamic mechanical progressive failure behaviors and predicting thermal damage during the drilling process of Carbon Fiber Reinforced Plastic (CFRP). Initially, a thermal conduction constitutive model of drilling CFRP was developed based on the proposed thermal distribution ratio calculation method. Meanwhile, a dynamic span-scale progressive damage constitutive model for CFRP, incorporating modified micromechanics failure criterion with bilinear damage evolution laws , was proposed, and a bilinear cohesive model , including three damage modes, is employed to simulate interlaminar delamination . Subsequently, a user-defined material subroutine VUMAT was implemented on the ABAQUS/Explicit platform to simulate the thermal–mechanical coupling behaviors of drilling T700S-12K/YPH-23 CFRP using a twist drill bit. Finally, a comprehensive information monitoring platform for CFRP drilling experiments was established to validate the accuracy of the simulation results by considering drilling temperature, thrust force, and hole-wall morphology. The results demonstrate excellent agreement between the established thermal–mechanical coupling span-scale model and the experimental data. Furthermore, the simulation effectively captures the various damage behaviors and thermal conduction phenomenon, that occur during the intact drilling process.

Topics & Concepts

Materials scienceDelamination (geology)Coupling (piping)DrillingStructural engineeringThermalThermal conductionBilinear interpolationConstitutive equationThrustFinite element methodComposite materialMechanical engineeringComputer scienceEngineeringGeologyMetallurgyTectonicsSubductionPaleontologyMeteorologyComputer visionPhysicsAdvanced machining processes and optimizationAdvanced Surface Polishing TechniquesMechanical Behavior of Composites
Thermal-mechanical coupling in drilling high-performance CFRP: Scale-span modeling and experimental validation | Litcius