Litcius/Paper detail

Modeling the temperature‐dependent viscoelastic behavior of glass fabric with binder in the compaction process

Ming Mei, Yujia He, Kai Wei, Shuyong Duan, Maojun Li, Xujing Yang

2021Polymer Composites12 citationsDOI

Abstract

Abstract The strain response and influence of elevated temperature on the viscoelastic behavior of fabric in the compaction process cannot be described and predicted by current viscoelastic models. Here, a viscoelastic model, verified by compaction experiments, is originally proposed to depict the stress and strain responses in different stages of the compaction, especially considering the effects of added binder and elevated temperature. The model effectively captures that with the rising temperature, the interaction among fibers is enhanced due to the fiber volume expansion. Accordingly, the elastic modulus is enlarged in the compression stage. In the relaxation stage, the interaction suppresses the fiber realignment, leading to the reduction of stress relaxation. In the creep stage, the elevated temperature increases the deformation stiffness, indicating the strain is declined. In the relaxation stage, the adhesive effect of added binder facilitates the stress relaxation, and then the increasing stress relaxation promotes the increment of strain in the creep stage.

Topics & Concepts

ViscoelasticityMaterials scienceComposite materialCompactionStress relaxationCreepRelaxation (psychology)Stress (linguistics)StiffnessModulusFiberDeformation (meteorology)Compression (physics)PsychologySocial psychologyPhilosophyLinguisticsTextile materials and evaluationsMechanical Behavior of CompositesStructural Analysis of Composite Materials