[HTML][HTML] Micromechanics of spatially uniform heterogeneous media: A critical review and emerging approaches
Outside of the classical microstructural detail-free estimates of effective moduli,
micromechanical analyses of macroscopically uniform heterogeneous media may be …
micromechanical analyses of macroscopically uniform heterogeneous media may be …
Thirty years of the finite volume method for solid mechanics
Since early publications in the late 1980s and early 1990s, the finite volume method has
been shown suitable for solid mechanics analyses. At present, there are several flavours of …
been shown suitable for solid mechanics analyses. At present, there are several flavours of …
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 …
[HTML][HTML] Finite-volume micromechanics of periodic materials: past, present and future
The finite-volume method is now a well-established tool in the numerical engineering
community for simulation of a wide range of problems in fluid and solid mechanics. Its …
community for simulation of a wide range of problems in fluid and solid mechanics. Its …
[HTML][HTML] Homogenization of elastic–plastic periodic materials by FVDAM and FEM approaches–An assessment
The standard computational approach for the homogenization of elastic–plastic response of
periodic materials is the finite-element method. Amongst the emerging alternatives, the finite …
periodic materials is the finite-element method. Amongst the emerging alternatives, the finite …
Multi-physics analysis for rubber-cement applications in building and architectural fields: A preliminary analysis
Generally, in most countries, there are no strict regulations regarding tire disposal. Hence,
tires end up thrown in seas and lands as well as being burnt, harming the living beings, and …
tires end up thrown in seas and lands as well as being burnt, harming the living beings, and …
Investigating the design and process parameters of folded perforated sheet metal
Origami-based sheet metal (OSM) bending is an extension of rigid origami technique, where
the final 3D structure is created from a single 2D flat pattern by bending. The key aspect of …
the final 3D structure is created from a single 2D flat pattern by bending. The key aspect of …
Adaptive deep homogenization theory for periodic heterogeneous materials
We present an adaptive physics-informed deep homogenization neural network (DHN)
approach to formulate a full-field micromechanics model for elastic and thermoelastic …
approach to formulate a full-field micromechanics model for elastic and thermoelastic …
Homogenization of periodic materials with viscoelastic phases using the generalized FVDAM theory
In the last decades, new generations of advanced materials have been designed and
manufactured for specific applications. The micromechanics plays an important role in the …
manufactured for specific applications. The micromechanics plays an important role in the …
[HTML][HTML] Microstructural scale effects in the nonlinear elastic response of bio-inspired wavy multilayers undergoing finite deformation
Materials with wavy microstructures span disciplinary boundaries, yet relatively little
systematic work has been done to characterize their thermo-mechanical response …
systematic work has been done to characterize their thermo-mechanical response …