Archivio Istituzionale della RicercaIn this paper, multiscale modeling of polymer composites consisting of Graphene Foam (GF) and Polydimethylsiloxane (PDMS) is conducted, and their Thermal Conductivity (TC) is investigated through the use of nano-to-microscale analyses. The TC of the PDMS matrix and GF is calculated using the Molecular Dynamics (MD) method. The effective properties of the composites are computed utilizing the Mechanics of Structure Genome (MSG) coupled with Carrera Unified Formulation (CUF) as a novel micromechanical method, which allows an accurate description of the problem resulting in a high-fidelity analysis. Due to the unique interconnected structure of GF, the TC of GF/PDMS composite reaches 0.406 Wm-1 K-1 for GF with 63% porosity, which is about 69% & PLUSMN; 2% higher than that of neat PDMS.
Multi-scale analysis of thermal conductivity of graphene foam/PDMS composites / Khosravani, Sajedeh; Sadr, Mohammad Homayoune; Carrera, Erasmo; Pagani, Alfonso; Masia, Rebecca. - In: MECHANICS OF ADVANCED MATERIALS AND STRUCTURES. - ISSN 1537-6494. - (2023), pp. 1-13. [10.1080/15376494.2023.2257976]
Multi-scale analysis of thermal conductivity of graphene foam/PDMS composites
Khosravani, Sajedeh;Carrera, Erasmo;Pagani, Alfonso;Masia, Rebecca
2023
Abstract
In this paper, multiscale modeling of polymer composites consisting of Graphene Foam (GF) and Polydimethylsiloxane (PDMS) is conducted, and their Thermal Conductivity (TC) is investigated through the use of nano-to-microscale analyses. The TC of the PDMS matrix and GF is calculated using the Molecular Dynamics (MD) method. The effective properties of the composites are computed utilizing the Mechanics of Structure Genome (MSG) coupled with Carrera Unified Formulation (CUF) as a novel micromechanical method, which allows an accurate description of the problem resulting in a high-fidelity analysis. Due to the unique interconnected structure of GF, the TC of GF/PDMS composite reaches 0.406 Wm-1 K-1 for GF with 63% porosity, which is about 69% & PLUSMN; 2% higher than that of neat PDMS.
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https://hdl.handle.net/11583/2992594