Building sensible processing-structure-property (PSP) links to gain fundamental insights and
understanding of materials behavior has been the focus of many works in computational …

Woven fiber composites have been increasingly employed as light-weight materials in
aerospace, construction, and transportation industries due to their superior properties …

In designing a microstructural materials system, there are several key questions associated
with design representation, design evaluation, and design synthesis: how to quantitatively …

There always exist multiple uncertainties including random uncertainty, interval uncertainty,
and fuzzy uncertainty in engineering structures. In the presence of hybrid uncertainties, the …

Predicting the mechanical behavior of the chopped carbon fiber Sheet Molding Compound
(SMC) due to spatial variations in local material properties is critical for the structural …

In this review, state‐of‐the‐art studies on the uncertainty quantification (UQ) of
microstructures in aerospace materials is examined, addressing both forward and inverse …

Woven composites possess multiple inherent uncertainty sources, which leads to the
stochasticity of macroscopic mechanical properties. In this work, a multiscale approach is …

This paper presents a computational framework to predict the tensile failure of chopped
carbon fiber SMC composites based on the Representative Volume Element (RVE) model …

The paper deals with the homogenization of random heterogeneous media with arbitrarily
shaped inclusions simulated with the extended finite element method (XFEM) coupled with …

This manuscript presents a multiscale stochastic failure modeling approach for fiber
reinforced composites. A homogenization based reduced-order multiscale computational …