Contents:
This second volume looks at the properties and characterization of cellulose, chitosan, furanic, starch, wool and silk nanocomposites and the potential industrial applications of natural polymer nanocomposites. With contributions from leading researchers in natural polymers from around the globe, this book provides a valuable reference for material scientists, polymer chemists and polymer engineers. Show less. View More. Back to Table of Contents.
Jawaid, Mohammad. Open Share Save. Click here to Expand all.
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View Section, Preface. View Section, Table of Contents. View Section, 1. Nanocellulose: Potential Reinforcement in Composites. View Section, 2. Chitosan-Based Nanocomposites.
Volume one focuses on natural polymer composites, including both Natural Polymers: Volume 2: Nanocomposites Editors: Maya J John. In the search for sustainable materials, natural polymers present an attractive alternative for many applications compared to their synthetic counterparts derived .
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View Section, 7. Starch Nanocomposites. View Section, 8. The following articles are merged in Scholar. Their combined citations are counted only for the first article. Merged citations.
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These properties provide a great potential for use in applications from plastic bags and packaging to biomedical fields, including bone plates, fixation screws or sutures. S [ ] Ek, R. However, the CNC content did not exert any effect on this parameter. According to the authors, grafted CNCs exhibited great potential for their applications as reinforcing agents for hydrophobic polymer due to their good crystallization ability, better thermal stability, and favorable hydrophobicity. Gatenholm, P. These acids are highly oxidative species and promote the production of cellulose pulps with higher strength and higher levels of delignification, thus enabling lower reversions of whiteness after bleaching and decreasing the degradation of cellulose [47]. You are connected as.
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