A multi-scale method for predicting the properties of 3D braided composite under three-point bending load

A multi-scale method for predicting the properties of 3D braided composite under three-point bending load

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A more versatile and efficient multi-scale coupling finite element method for researching the mechanical response of 3D braided composites under three-point bending load is represented in this paper.In the mesoscale, the multiphase representative unit-cell models are established to describe Shelf Bracket the mesoscopic structure which consists of braiding yarns and matrix.In the macroscale, the unit-cells are regarded as homogeneous material, and the load and constraint conditions are applied on the macroscopic structure model.The multi-scale homogenization theory is introduced to calculate the equivalent stiffness matrixes Accessories of mesoscopic unit-cells and build the mathematical relationships between the mesoscopic stress fields and the macroscopic strain fields.

According to the element damage criterion, the bending modulus and ultimate load-bearing ability of 3D braided composites are predicted by simulating the progressive damage process of unit-cells Comparing with the experimental result, the predicted result satisfies the required precision for engineering.