Homogenization of composites with extended general interfaces: comprehensive review and unified modeling
Interphase regions that form in heterogeneous materials through various underlying
mechanisms such as poor mechanical or chemical adherence, roughness, and coating, play …
mechanisms such as poor mechanical or chemical adherence, roughness, and coating, play …
Fiber-and particle-reinforced composite materials with the Gurtin–Murdoch and Steigmann–Ogden surface energy endowed interfaces
SG Mogilevskaya… - Applied …, 2021 - asmedigitalcollection.asme.org
Modern advances in material science and surface chemistry lead to creation of composite
materials with enhanced mechanical, thermal, and other properties. It is now widely …
materials with enhanced mechanical, thermal, and other properties. It is now widely …
Nitsche's method enhanced isogeometric homogenization of unidirectional composites with cylindrically orthotropic carbon/graphite fibers
An isogeometric homogenization (IGH) technique is constructed for the homogenization and
localization of unidirectional composites with radially or circumferentially orthotropic …
localization of unidirectional composites with radially or circumferentially orthotropic …
Higher order mixture nonlocal gradient theory of wave propagation
SA Faghidian - Mathematical Methods in the Applied Sciences, 2020 - Wiley Online Library
The higher order mixture nonlocal gradient theory of elasticity is conceived via consistent
unification of the higher order stress‐and strain‐driven mixture nonlocal elasticity and the …
unification of the higher order stress‐and strain‐driven mixture nonlocal elasticity and the …
Higher–order nonlocal gradient elasticity: A consistent variational theory
SA Faghidian - International Journal of Engineering Science, 2020 - Elsevier
A consistent variational theory of the higher–order nonlocal gradient elasticity is conceived
to appropriately introduce the nonlocality to the higher-order strain gradient theory. The …
to appropriately introduce the nonlocality to the higher-order strain gradient theory. The …
Extended mean-field homogenization of viscoelastic-viscoplastic polymer composites undergoing hybrid progressive degradation induced by interface debonding and …
In this contribution, a probabilistic micromechanics damage framework is presented to
predict the macroscopic stress–strain response and progressive damage in unidirectional …
predict the macroscopic stress–strain response and progressive damage in unidirectional …
Deep homogenization networks for elastic heterogeneous materials with two-and three-dimensional periodicity
We present a deep learning framework that leverages computational homogenization
expertise to predict the local stress field and homogenized moduli of heterogeneous …
expertise to predict the local stress field and homogenized moduli of heterogeneous …
Two‐phase local/nonlocal gradient mechanics of elastic torsion
SA Faghidian - Mathematical Methods in the Applied Sciences, 2020 - Wiley Online Library
The higher order two‐phase local/nonlocal elasticity model and the higher order strain
gradient theory are unified via an abstract variational scheme. The higher order constitutive …
gradient theory are unified via an abstract variational scheme. The higher order constitutive …
Homogenization of size-dependent multiphysics behavior of nanostructured piezoelectric composites with energetic surfaces
Surface piezoelectricity considering the extended Gurtin--Murdoch coherent interface model
has been incorporated into the composite cylinder assemblage (CCA), generalized self …
has been incorporated into the composite cylinder assemblage (CCA), generalized self …
Isogeometric homogenization of viscoelastic polymer composites via correspondence principle
We present an isogeometric homogenization theory (IGH) for efficiently identifying
homogenized and local creep and relaxation response of linearly viscoelastic polymer …
homogenized and local creep and relaxation response of linearly viscoelastic polymer …