A review of predictive nonlinear theories for multiscale modeling of heterogeneous materials
Since the beginning of the industrial age, material performance and design have been in the
midst of innovation of many disruptive technologies. Today's electronics, space, medical …
midst of innovation of many disruptive technologies. Today's electronics, space, medical …
A continuum of physics-based lithium-ion battery models reviewed
Physics-based electrochemical battery models derived from porous electrode theory are a
very powerful tool for understanding lithium-ion batteries, as well as for improving their …
very powerful tool for understanding lithium-ion batteries, as well as for improving their …
Boosting rechargeable batteries R&D by multiscale modeling: myth or reality?
This review addresses concepts, approaches, tools, and outcomes of multiscale modeling
used to design and optimize the current and next generation rechargeable battery cells …
used to design and optimize the current and next generation rechargeable battery cells …
Homogenization methods and multiscale modeling: nonlinear problems
MGD Geers, VG Kouznetsova… - Encyclopedia of …, 2017 - Wiley Online Library
This article focuses on computational multiscale methods for the mechanical response of
nonlinear heterogeneous materials. After a short historical note, a brief overview is given of …
nonlinear heterogeneous materials. After a short historical note, a brief overview is given of …
A review of the FE2 method for composites
Composite materials and structures are inherently inhomogeneous and anisotropic across
multiple scales. Multiscale modelling offers opportunities to understand the coupling of …
multiple scales. Multiscale modelling offers opportunities to understand the coupling of …
A phase‐field model for chemo‐mechanical induced fracture in lithium‐ion battery electrode particles
Capacity fade in conventional Li‐ion battery systems due to chemo‐mechanical degradation
during charge–discharge cycles is the bottleneck in high‐performance battery design …
during charge–discharge cycles is the bottleneck in high‐performance battery design …
Theory and applications of macroscale models in porous media
Abstract Systems dominated by heterogeneity over a multiplicity of scales, like porous
media, still challenge our modeling efforts. The presence of disparate length-and time …
media, still challenge our modeling efforts. The presence of disparate length-and time …
A finite strain electro-chemo-mechanical theory for ion transport with application to binary solid electrolytes
An electro-chemo-mechanical formulation of ion transport in solid electrolytes, in particular
for binary systems, is presented. Starting with conservation laws and the second law of …
for binary systems, is presented. Starting with conservation laws and the second law of …
[HTML][HTML] Anisotropic damage behavior in fiber-based materials: Modeling and experimental validation
This study presents a thermodynamically consistent continuum damage model for fiber-
based materials that combines elastoplasticity and damage mechanisms to simulate the …
based materials that combines elastoplasticity and damage mechanisms to simulate the …
Models for the interplay of mechanics, electrochemistry, thermodynamics, and kinetics in lithium-ion batteries
We review a broad range of topics related to the interplay of electrochemistry and mechanics
in all solid-state batteries. The modeling frameworks that exist in the literature are varied in …
in all solid-state batteries. The modeling frameworks that exist in the literature are varied in …