A review of nonlinear FFT-based computational homogenization methods
M Schneider - Acta Mechanica, 2021 - Springer
Since their inception, computational homogenization methods based on the fast Fourier
transform (FFT) have grown in popularity, establishing themselves as a powerful tool …
transform (FFT) have grown in popularity, establishing themselves as a powerful tool …
[HTML][HTML] Generation of 3D representative volume elements for heterogeneous materials: A review
This work reviews state of the art representative volume element (RVE) generation
techniques for heterogeneous materials. To this end, we present a systematic classification …
techniques for heterogeneous materials. To this end, we present a systematic classification …
Gaussian filtering method of evaluating the elastic/elasto-plastic properties of sintered nanocomposites with quasi-continuous volume distribution
In this work, combing the Gaussian filtering algorithm and the cutting quantile functions, a
new technique is developed to efficiently generate the RVE of randomly distributed metal …
new technique is developed to efficiently generate the RVE of randomly distributed metal …
Editors' choice—review—impedance response of porous electrodes: theoretical framework, physical models and applications
Porous electrodes are prevalent in electrochemical devices. Electrochemical impedance
spectroscopy (EIS) is widely used as a noninvasive, in situ characterization tool to …
spectroscopy (EIS) is widely used as a noninvasive, in situ characterization tool to …
DiameterJ: A validated open source nanofiber diameter measurement tool
Despite the growing use of nanofiber scaffolds for tissue engineering applications, there is
not a validated, readily available, free solution for rapid, automated analysis of nanofiber …
not a validated, readily available, free solution for rapid, automated analysis of nanofiber …
A computational library for multiscale modeling of material failure
We present an open-source software framework called PERMIX for multiscale modeling and
simulation of fracture in solids. The framework is an object oriented open-source effort …
simulation of fracture in solids. The framework is an object oriented open-source effort …
[HTML][HTML] Gradient elasticity in statics and dynamics: an overview of formulations, length scale identification procedures, finite element implementations and new results
H Askes, EC Aifantis - International Journal of Solids and Structures, 2011 - Elsevier
In this paper, we discuss various formats of gradient elasticity and their performance in static
and dynamic applications. Gradient elasticity theories provide extensions of the classical …
and dynamic applications. Gradient elasticity theories provide extensions of the classical …
FE: an efficient data-driven multiscale approach based on physics-constrained neural networks and automated data mining
Herein, we present a new data-driven multiscale framework called FE ANN which is based
on two main keystones: the usage of physics-constrained artificial neural networks (ANNs) …
on two main keystones: the usage of physics-constrained artificial neural networks (ANNs) …
Aspects of computational homogenization at finite deformations: a unifying review from Reuss' to Voigt's bound
The objective of this contribution is to present a unifying review on strain-driven
computational homogenization at finite strains, thereby elaborating on computational …
computational homogenization at finite strains, thereby elaborating on computational …
Multiscale modeling of concrete: from mesoscale to macroscale
JF Unger, S Eckardt - Archives of computational Methods in Engineering, 2011 - Springer
In this paper, a mesoscale model of concrete is presented, which considers particles, matrix
material and the interfacial transition zone (ITZ) as separate constituents. Particles are …
material and the interfacial transition zone (ITZ) as separate constituents. Particles are …