Add to ORKGThis contribution concerns the multi-scale and multi-physics finite element analysis of structural power composites, i.e. multifunctional composites with simultaneous load bearing and energy storing functionality. We are particularly interested in obtaining the effective macro-scale properties of the structural electrolyte by employing computational homogenization to capture the effects of micro-heterogeneities on the sub-scale. The sub-scale problem is defined by a statistical volume element that is numerically generated, and the effective properties are obtained by conducting virtual material testing on the synthetic microstructure
The paper deals with the computational model of quasi-static transport of 2-component electrolyte so...
Reinforced composites are used in many industrial and multi-functional applications. The efficiency ...
Periodic microstructural composites have gained considerable attention in material science and engin...
Structural power composites are multifunctional materials with simultaneous load bearing and energy ...
Structural power composites are multifunctional materials with simultaneous load bearing and energy ...
The structural battery is multifunctional in the sense that it is able to carry mechanical loads, an...
To predict the multifunctional performance of structural battery composites, multiple physical pheno...
The multi-scale structures are commonly found in nature, such as plants and bones. Such multi-scale ...
Abstract Structural batteries are multifunctional composite materials that can carry mechanical load...
This is a dissertation with two major thrust. The first thrust is focused on a series of mathematica...
This is a dissertation with two major thrust. The first thrust is focused on a series of mathematica...
We consider ionic transport by diffusion and migration through microstructured solid electrolytes. T...
Structure-resolving simulation of porous materials in electrochemical cells such as fuel cells and l...
Conventional battery models (e.g., Pseudo-2D model) were developed especially for particle-based bat...
The structural battery composite is a composite material that can store electrical energy (i.e. work...
The paper deals with the computational model of quasi-static transport of 2-component electrolyte so...
Reinforced composites are used in many industrial and multi-functional applications. The efficiency ...
Periodic microstructural composites have gained considerable attention in material science and engin...
Structural power composites are multifunctional materials with simultaneous load bearing and energy ...
Structural power composites are multifunctional materials with simultaneous load bearing and energy ...
The structural battery is multifunctional in the sense that it is able to carry mechanical loads, an...
To predict the multifunctional performance of structural battery composites, multiple physical pheno...
The multi-scale structures are commonly found in nature, such as plants and bones. Such multi-scale ...
Abstract Structural batteries are multifunctional composite materials that can carry mechanical load...
This is a dissertation with two major thrust. The first thrust is focused on a series of mathematica...
This is a dissertation with two major thrust. The first thrust is focused on a series of mathematica...
We consider ionic transport by diffusion and migration through microstructured solid electrolytes. T...
Structure-resolving simulation of porous materials in electrochemical cells such as fuel cells and l...
Conventional battery models (e.g., Pseudo-2D model) were developed especially for particle-based bat...
The structural battery composite is a composite material that can store electrical energy (i.e. work...
The paper deals with the computational model of quasi-static transport of 2-component electrolyte so...
Reinforced composites are used in many industrial and multi-functional applications. The efficiency ...
Periodic microstructural composites have gained considerable attention in material science and engin...