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Sustainable Polymer Foams and Nanocomposites: Design, Manufacturing and Recycling
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Functional Nanocomposites, International Institute for Nanocomposites Manufacturing (IINM) WMG, University of Warwick, Coventry CV4 7AL, UK
Dr. Soo Khim Lau
Singapore Institute of Manufacturing Technology, A-Star, Singapore, Singapore
Dr. Yongsheng Zhao
School of Chemistry and Chemical Engineering, Northwestern Polytechnical University, Xi'an 710072, China
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Sustainable Polymer Foams and Nanocomposites: Design, Manufacturing and Recycling

Abstract submission deadline
closed (30 June 2023)
Manuscript submission deadline
closed (31 August 2023)
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2160

Topic Information

Dear Colleagues,

With increasing awareness for sustainability, polymer foam forms (offers) an attractive choice of materials in many applications to achieve reduction in material consumption while delivering high strength to weight ratio, for energy conservation, etc. The global trend towards green manufacturing has also seen increasing studies on the use of inert gases as physical blowing agent in developing these foams. The choice of blowing agents, materials and processing technique has significant influence on the morphologies of foams, leading to opportunities for creating new generation of foams with potential for new applications. This topic aims to present recent advancement in development of thermoplastic functional foams, nano-composites or composite foams derived from sustainable/functional materials choice and/or from adoption of green foaming processes. Studies on application development or foam morphologies to mechanical/functional properties relationship of these new generation of foams are highly welcome.

Dr. Chaoying Wan
Dr. Soo Khim Lau
Dr. Yongsheng Zhao
Topic Editors

Keywords

  • micro/nano-composite foams
  • reinforced polymer foams
  • conductive foam
  • functionalised foams
  • biodegradable foams
  • bimodal structured polymer foams
  • CO2/N2 foaming
  • reprocessable and recyclable

Participating Journals

Journal Name Impact Factor CiteScore Launched Year First Decision (median) APC
Journal of Composites Science
jcs 		3.0 5.0 2017 18.5 Days CHF 1800
Materials
materials 		3.1 5.8 2008 15.5 Days CHF 2600
Polymers
polymers 		4.7 8.0 2009 14.5 Days CHF 2700
Sustainability
sustainability 		3.3 6.8 2009 20 Days CHF 2400

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Published Papers (1 paper)

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Article
In Situ Dispersion of Lignin in Polypropylene via Supercritical CO2 Extrusion Foaming: Effects of Lignin on Cell Nucleation and Foam Compression Properties
by Keen Hoe Ho, Xuehong Lu and Soo Khim Lau
Polymers 2023, 15(8), 1813; https://doi.org/10.3390/polym15081813 - 7 Apr 2023
Viewed by 1485
Abstract
Supercritical CO2 (scCO2) extrusion foamed high-melt-strength (HMS) polypropylene (PP) often suffers from low cell density, large cell sizes, and poor cell structure uniformity due to the poor nucleation rates of CO2 in the PP. To remedy this, various inorganic [...] Read more.
Supercritical CO2 (scCO2) extrusion foamed high-melt-strength (HMS) polypropylene (PP) often suffers from low cell density, large cell sizes, and poor cell structure uniformity due to the poor nucleation rates of CO2 in the PP. To remedy this, various inorganic fillers have been used as heterogeneous nucleation agents. Although their efficient nucleation effects have been demonstrated, the preparation of these fillers causes some adverse effects on the environment/human health or involves relatively expensive processes or non-eco-friendly chemicals. In this work, biomass-based lignin is studied as a sustainable, lightweight, and cost-effective nucleating agent. It is found that scCO2 could assist in situ dispersion of lignin in the PP in the foaming process, leading to significantly increased cell density, smaller cells, and improved cell uniformity. The Expansion Ratio is also simultaneously improved due to reduced diffusive gas loss. The PP/lignin foams with low lignin loadings exhibit higher compression moduli and plateau strengths than the PP foams with the same densities owing to the improved cell uniformity and probably also the reinforcing effect of the small lignin particles in cell walls. Moreover, the energy absorption capability of the PP/lignin foam with 1 wt% lignin could match the PP foam with similar compression plateau strengths; even the density of the former is 28% lower than the latter. Therefore, this work provides a promising approach to a cleaner and more sustainable production of HMS PP foams. Full article
(This article belongs to the Topic Sustainable Polymer Foams and Nanocomposites: Design, Manufacturing and Recycling)
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