Advanced computational nanomechanics by Nuno Silvestre PDF

By Nuno Silvestre

ISBN-10: 1119068908

ISBN-13: 9781119068907

ISBN-10: 1119068932

ISBN-13: 9781119068938

Contains the most recent examine advances in computational nanomechanics in a single accomplished volume

  • Covers computational instruments used to simulate and examine nanostructures
  • Includes contributions from prime researchers
  • Covers of recent methodologies/tools utilized to computational nanomechanics when additionally giving readers the recent findings on carbon-based aggregates (graphene, carbon-nanotubes, nanocomposites)
  • Evaluates the influence of nanoscale phenomena in materials

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Sample text

5. For illustrative purposes, the parameters in the open literature are chosen for Eq. 22). 2 W/m K, thermal conductivity of graphene fillers is 5000 W/m K, volume fraction of fillers is 10%, and size of graphene fillers is 5 μm. 4. It shows that the thermal conductivity of graphene–polymer nanocomposites increases significantly with reduced interfacial thermal resistance, especially when the interfacial thermal resistance is low. Therefore, the reduction of the interfacial thermal resistance between graphene and polymer is a key challenge for the development of graphene–polymer nanocomposites.

Up to now, researchers have focused on two methods: covalent functionalisation and non-covalent functionalisation in graphene. 1 Covalent Functionalisation Covalent functionalisation has been recognised as an effective method for promoting interfacial acoustic coupling between carbon nanostructures and polymers. Earlier research studies have proven that it is able to enhance the interfacial thermal transport across carbon nanotube–polymer interfaces [151–155]. Recently, researchers started investigating the application of covalent functionalisation on graphene.

W. et al. (2006) Thermal conductivity of UltemTM/carbon nanofiller blends. High Performance Polymers, 18, 961–977. S. et al. (2013) Carbon hybrid fillers composed of carbon nanotubes directly grown on graphene nanoplatelets for effective thermal conductivity in epoxy composites. Nanotechnology, 24, 155604. , Long, W. and Li, Y. (2014) Enhanced thermal conductivity in polymer composites with aligned graphene nanosheets. Journal of Materials Science, 49, 5256–5264. J. et al. (2009) Thermal expansion of graphene composites.

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Advanced computational nanomechanics by Nuno Silvestre


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