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Damage-rate-dependent model for impact crushing of thin-ply CFRP tubes

Alexey Fedorenko, Changfang Zhao, Hao Liu, B.A. FEDULOV, Evgeny Lomakin, Chen Liu

2026International Journal of Mechanical Sciences10 citationsDOIOpen Access PDF

Abstract

The dynamic crushing behavior of CFRP tubular specimens with thin-ply laminates is investigated using both experimental studies and finite element modeling. In the proposed constitutive model, rate effects are incorporated using internal damage-rate variables rather than individual strain-rate tensor components. The model is calibrated using impact-test data for CFRP and implemented in Abaqus/Explicit via a VUMAT subroutine. Simulations of tubes with various layups reproduce key experimental observations, including primary failure modes, force–displacement responses, and energy absorption. Accurate prediction of fully developed longitudinal cracks in 0° tubes required extreme mesh refinement, as confirmed by sector analysis of the tube. A detailed analysis of the spatial distribution of damage modes is provided. The proposed approach demonstrates the effectiveness of the rate-dependent modeling framework for predicting the dynamic response of thin-ply composites.

Topics & Concepts

Materials scienceComposite materialStructural engineeringFinite element methodDeformation (meteorology)Compression (physics)WeldingDuctility (Earth science)Tube (container)Numerical modelsMechanical Behavior of CompositesCellular and Composite StructuresComposite Material Mechanics