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 …
[HTML][HTML] An asymptotic derivation of a general imperfect interface law for linear multiphysics composites
The paper is concerned with the derivation of a general imperfect interface law in a linear
multiphysics framework for a composite, constituted by two solids, separated by a thin …
multiphysics framework for a composite, constituted by two solids, separated by a thin …
A computational multiscale approach towards the modelling of microstructures with material interfaces in electrical conductors
D Güzel, T Kaiser, A Menzel - Mathematics and Mechanics …, 2023 - journals.sagepub.com
Motivated by the change of effective electrical properties grain or phase boundaries, a
computational multiscale framework for continua with interfaces at the microscale is …
computational multiscale framework for continua with interfaces at the microscale is …
Generalized interfaces via weighted averages for application to graded interphases at large deformations
Finite-thickness interphases between different constituents in heterogeneous materials are
often replaced by a zero-thickness interface model. Commonly accepted interface models …
often replaced by a zero-thickness interface model. Commonly accepted interface models …
[HTML][HTML] Extended general interfaces: Mori–Tanaka homogenization and average fields
A well-established methodology to capture interphases in heterogeneous materials is to
replace them by a zero-thickness interface model. Commonly accepted interface models …
replace them by a zero-thickness interface model. Commonly accepted interface models …
Enhanced computational homogenization techniques for modelling size effects in polymer composites
Several experimental investigations corroborate nanosized inclusions as being much more
efficient reinforcements for strengthening polymers as compared to their microsized …
efficient reinforcements for strengthening polymers as compared to their microsized …
Optimized bi-material layouts for energy dissipating composites under finite deformations
R Alberdi, K Khandelwal - International Journal of Solids and Structures, 2020 - Elsevier
This study investigates the use of topology optimization as a method for discovering novel
layouts of material phases which enhance the energy dissipation capacity of bi-material …
layouts of material phases which enhance the energy dissipation capacity of bi-material …
[PDF][PDF] Computational Homogenization Accounting for Imperfect Interfaces
S Saeb - 2023 - opus4.kobv.de
Composite materials have been firmly integrated into modern life due to their superior
physical and functional qualities. These multifunctional materials have proven as promising …
physical and functional qualities. These multifunctional materials have proven as promising …
Derivation of Imperfect Interface Laws for Multi-Physic Composites by a Multiscale Approach: Theoretical and Numerical Studies
In the present study, we focus our attention to a specific type of composite, constituted by two
media, called the adherents, bonded together with a thin interphase layer, called the …
media, called the adherents, bonded together with a thin interphase layer, called the …