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A rapid method for simulating residual stress to enable optimization against cure induced distortion

Christopher J. Cameron, Sibin Saseendran, Fredrik Stig, Mohammad Sadegh Rouhi

2021Journal of Composite Materials11 citationsDOIOpen Access PDF

Abstract

In this paper a rapid method for residual cure stress analysis from composite manufacturing is presented. The method uses a high-fidelity path-dependent cure kinetics subroutine implemented in ABAQUS to calibrate a linear elastic model. The path-dependent model accounts for the tool-part interaction, forming pressure, and the changing composite modulus during the rubbery phase of matrix curing. Results are used to calculate equivalent lamina-wise coefficients of thermal expansion (CTE) in 3 directions for a linear temperature analysis. The goal is to accurately predict distortions for large complex geometries as rapidly as possible for use in an optimization framework. A carbon-epoxy system is studied. Simple coupons and complex parts are manufactured and measured with a 3 D scanner to compare the manufactured and simulated distortion. Results are presented and the accuracy and limitations of the rapid simulation method are discussed with particular focus on implementation in a numerical optimization framework.

Topics & Concepts

Materials scienceResidual stressThermal expansionEpoxyComposite materialDistortion (music)Curing (chemistry)Composite numberModulusFinite element methodResidualStructural engineeringComputer scienceAlgorithmAmplifierCMOSEngineeringOptoelectronicsEpoxy Resin Curing ProcessesMechanical Behavior of CompositesInjection Molding Process and Properties
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