Effect of compositional gradient on thermal behavior of synthetic graphite-phenolic nanocomposites

Bafekrpour, Ehsan, Simon, George P., Yang, Chunhui, Habsuda, Jana, Naebe, Minoo and Fox, Bronwyn 2012, Effect of compositional gradient on thermal behavior of synthetic graphite-phenolic nanocomposites, Journal of thermal analysis and calorimetry, vol. 109, no. 3, pp. 1169-1176.

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Title Effect of compositional gradient on thermal behavior of synthetic graphite-phenolic nanocomposites
Author(s) Bafekrpour, Ehsan
Simon, George P.
Yang, Chunhui
Habsuda, Jana
Naebe, Minoo
Fox, Bronwyn
Journal name Journal of thermal analysis and calorimetry
Volume number 109
Issue number 3
Start page 1169
End page 1176
Total pages 8
Publisher Springer
Place of publication Berlin, Germany
Publication date 2012-09
ISSN 1418-2874
1388-6150
Keyword(s) synthetic graphite
phenolic
nanocomposites
thermal conductivity
heat capacity
finite element modelling
transient heat transfer
Summary Synthetic graphite–phenolic nanocomposites were designed and synthesized with a compositional gradient which is shown to influence transient temperature fields during rapid temperature changes. Such nanocomposites were fabricated using a compression moulding technique, and thermal conductivity and heat capacity of nanocomposites were experimentally determined using a modified transient plane source technique over a wide temperature range from 253.15 to 373.15 K. The effects of four compositional gradient configurations on the transient temperature field across the thickness of a nanocomposite plate, at a high imposed temperature, was investigated. The transient time and temperature fields in nanocomposite structures were highly affected by the compositional gradient configurations.
Language eng
Field of Research 109999 Technology not elsewhere classified
Socio Economic Objective 970110 Expanding Knowledge in Technology
HERDC Research category C1 Refereed article in a scholarly journal
Persistent URL http://hdl.handle.net/10536/DRO/DU:30051166

Document type: Journal Article
Collections: School of Engineering
Institute for Frontier Materials
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