Thermal Properties of Sustainable Thermoplastics Nanocomposites Containing Nanofillers and Its Recycling Perspective

Takkalkar, P, Nizamuddin Bin Shah Mohamed, ., Griffin, G and Kao, N 2019, 'Thermal Properties of Sustainable Thermoplastics Nanocomposites Containing Nanofillers and Its Recycling Perspective' in Inamuddin, Thomas, Sabu Kumar Mishra, Raghvendra Asiri, Abdullah M. (ed.) Sustainable Polymer Composites and Nanocomposites, Springer Nature Switzerland AG 2019, Cham, Switzerland, pp. 915-933.


Document type: Book Chapter
Collection: Book Chapters

Title Thermal Properties of Sustainable Thermoplastics Nanocomposites Containing Nanofillers and Its Recycling Perspective
Author(s) Takkalkar, P
Nizamuddin Bin Shah Mohamed, .
Griffin, G
Kao, N
Year 2019
Title of book Sustainable Polymer Composites and Nanocomposites
Publisher Springer Nature Switzerland AG 2019
Place of publication Cham, Switzerland
Editor(s) Inamuddin, Thomas, Sabu Kumar Mishra, Raghvendra Asiri, Abdullah M.
Start page 915
End page 933
Subjects Chemical Engineering not elsewhere classified
Summary Sustainable thermoplastic nanocomposites are of great importance because they possess the potential to resolve concerns on the emission of greenhouse gases, depletion of fossil fuels and pollution. The thermal characteristics of polymers and nanocomposites play a significant role in determining the suitable application of these materials. This review provides an overview of the thermal properties of sustainable thermoplastic nanocomposites incorporated with various nanofillers. Thermogravimetric/differential thermogravimetric analysis, DSC and thermal conductivity of various thermoplastic nanocomposites have been elaborated in detail. Further, the recycling perspectives of various polymers have been discussed. The thermal properties are essential characteristics to understand the behaviour of the raw material and final product. The performance and properties of the nanocomposite are greatly dependent on the polymer matrix, polymer dispersion in composite, properties and aspect ratio of fiber, the interface of fiber and matrix, and process parameters.
Copyright notice © Springer Nature Switzerland AG 2019
Keyword(s) Sustainable thermoplastic
Nanofillers
Nanocomposite
Recycling
DOI - identifier 10.1007/978-3-030-05399-4_31
ISBN 9783030053994
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