Model selection and sensitivity analysis in the biomechanics of soft tissues: A case study on the human knee meniscus
Soft tissues—such as ligaments and tendons—primarily consist of solid (collagen,
predominantly) and liquid phases. Understanding the interaction between such components …
predominantly) and liquid phases. Understanding the interaction between such components …
An optimal preconditioned FFT-accelerated finite element solver for homogenization
We generalize and provide a linear algebra-based perspective on a finite element (FE)
homogenization scheme, pioneered by Schneider et al.(2017)[1] and Leuschner and Fritzen …
homogenization scheme, pioneered by Schneider et al.(2017)[1] and Leuschner and Fritzen …
[HTML][HTML] How can machine learning be used for accurate representations and predictions of fracture nucleation in zirconium alloys with hydride populations?
Zirconium alloys are critical material components of systems subjected to harsh
environments such as high temperatures, irradiation, and corrosion. When exposed to water …
environments such as high temperatures, irradiation, and corrosion. When exposed to water …
Towards automated image-based cohesive zone modeling of cracking in irregular masonry
K Ehab Moustafa Kamel… - … and mechanics of solids, 2025 - journals.sagepub.com
The models developed for masonry and historical structures in the literature are usually
classified into macromodels considering masonry as an equivalent continuum; and …
classified into macromodels considering masonry as an equivalent continuum; and …
[HTML][HTML] Dynamic bandgap responsiveness of modified re-entrant metamaterials in thermal-mechanical field
This paper introduces a nested sinusoidal re-entrant (NSR) metamaterial characterized by
tunable complete bandgaps (CBGs) and dynamic responsiveness in thermal-mechanical …
tunable complete bandgaps (CBGs) and dynamic responsiveness in thermal-mechanical …
[HTML][HTML] Multiscale modelling of strongly heterogeneous materials using geometry informed clustering
J Selvaraj, B El Said - International Journal of Solids and Structures, 2023 - Elsevier
Computationally efficient and numerically accurate modelling of heterogeneous materials
with complex internal architectures at the macroscale is a current problem. For instance, in …
with complex internal architectures at the macroscale is a current problem. For instance, in …
Optimal FFT-accelerated finite element solver for homogenization
We propose a matrix-free finite element (FE) homogenization scheme that is considerably
more efficient than generic FE implementations. The efficiency of our scheme follows from a …
more efficient than generic FE implementations. The efficiency of our scheme follows from a …
Pokročilé víceúrovňové metody pro výpočetní homogenizaci periodických struktur
L Martin - 2022 - dspace.cvut.cz
Víceúrovňové materiálové modelování je jednou ze klíčových oblastí vývoje pro budoucí
průmyslová odvětví. Pro plné využítí možností víceúrovňových struktur musí být techniky …
průmyslová odvětví. Pro plné využítí možností víceúrovňových struktur musí být techniky …
[PDF][PDF] Advanced spectral methods for computational homogenization of periodic media
M Ladecký - 2022 - researchgate.net
Multiscale material modeling is one of the enabling fields for future industries. To fully exploit
the opportunities of multiscale structures, multiscale modeling techniques must be accurate …
the opportunities of multiscale structures, multiscale modeling techniques must be accurate …
Pokročilé víceúrovňové Metody Pro výpočetní Homogenizaci periodických Struktur
M Ladecký - 2022 - search.proquest.com
Multiscale material modeling is one of the enabling fields for future industries. To fully exploit
the opportunities of multiscale structures, multiscale modeling techniques must be accurate …
the opportunities of multiscale structures, multiscale modeling techniques must be accurate …