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The focus of this presentation is on the multi-scale and multi-physics Finite Element Analysis of the structural battery composite. We are particularly interested in predicting the electro-chemical performance of the Structural Battery Electrolyte (SBE) by utilizing computational homogenization, and numerical model reduction (NMR). | The focus of this presentation is on the multi-scale and multi-physics Finite Element Analysis of the structural battery composite. We are particularly interested in predicting the electro-chemical performance of the Structural Battery Electrolyte (SBE) by utilizing computational homogenization, and numerical model reduction (NMR). | ||
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== Video == | == Video == | ||
{{#evt:service=cloudfront|id=257937|alignment=center|filename=112.mp4}} | {{#evt:service=cloudfront|id=257937|alignment=center|filename=112.mp4}} | ||
Latest revision as of 18:14, 21 June 2021
Summary
The focus of this presentation is on the multi-scale and multi-physics Finite Element Analysis of the structural battery composite. We are particularly interested in predicting the electro-chemical performance of the Structural Battery Electrolyte (SBE) by utilizing computational homogenization, and numerical model reduction (NMR).
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Published on 21/06/21
Accepted on 21/06/21
Submitted on 21/06/21
Volume CT09 - Multiscale, Multimodel and Multiphysics, 2021
DOI: 10.23967/admos.2021.062
Licence: CC BY-NC-SA license
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