A 3-D micromechanical framework to study damage propagation and failure of printed aligned discontinuous fiber-reinforced composites

Abstract: This paper presents a novel and efficient micromechanical framework for finite element simulation of damage and failure in 3-D printed aligned discontinuous fiber-reinforced composites. The framework can predict the initiation and propagation of different types of damage in the composite under tensile loading along the fibers’ axis. The micromechanical framework includes the microstructural representation of the composite with explicit fibers and matrix in addition to linear expansions at the ends. Accurate co… Show more

“…Micromechanical analysis of the damage propagation also can be found in the literature, but most of them use numerical methods. [34][35][36] The goal of the present investigation is to contribute to this discussion using an analytical micromechanical approach.…”

Is the out-of-plane shear strength an independent property? A micromechanical perspective about a macromechanical question

“…Micromechanical analysis of the damage propagation also can be found in the literature, but most of them use numerical methods. [34][35][36] The goal of the present investigation is to contribute to this discussion using an analytical micromechanical approach.…”

Is the out-of-plane shear strength an independent property? A micromechanical perspective about a macromechanical question

The Effects of Curing Process on the Damage Behavior of Additively Manufactured Fiber-Reinforced Thermosetting Composites

Micromechanical analyses of unidirectional (UD) discontinuous flax fiber reinforced composites