Multiscale Modeling of Heat Transfer in Graphene-Copper Nanocomposites
Multiscale Modeling of Heat Transfer in Graphene-Copper Nanocomposites
Date
2025
Authors
Goor, L.A. van
Lee, H.
Jafari, D.
Lyulin, A.V.
Wits, W.W.
Geurts, B.J.
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ECCOMAS
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Sponsor
This research was funded from the EU’s Horizon Europe Research and Innovation Programme under Grant Agreement No. 101046835. This paper does not necessarily reflect the views of the European Commission.
Abstract
This study investigates the thermal properties of graphene-copper metal-matrix composites, resolving nanoscale structures through Non-Equilibrium Molecular Dynamics (NEMD) simulations and developing a continuum-upscaled model using homogenization. The continuum model is based on the NEMD findings and aims to predict the thermal properties of graphene-copper powders, which serve as feedstock material for
Additive Manufacturing (AM).
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Citation
Computational Modeling of Complex Materials across the Scales (CMCS 2025), Champs-sur-Marne, France