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Elsevier

Surface Treatment Methods of Natural Fibres and their Effects on Biocomposites

  • 1st Edition - March 25, 2022
  • Latest edition
  • Editors: Asim Shahzad, Fulga Tanasa, Carmen-Alice Teaca
  • Language: English

Natural fiber composites have experienced a renaissance over the last two decades as a response to societal demands for developing eco-friendly, biodegradable and recyclable… Read more

Description

Natural fiber composites have experienced a renaissance over the last two decades as a response to societal demands for developing eco-friendly, biodegradable and recyclable materials. They are now being extensively used in everyday products as well as in automotive, packaging, sports and the construction industries. These fibers require surface treatments in order to improve their properties and interfacial bonding with polymer matrices, and to reduce their hydrophilic character. These methods can be grouped into three major categories: chemical, physical and biological. Chemical methods use chemical reagents to reduce fibers’ hydrophilic tendency and thus improve compatibility with the matrix. They also expose more reactive groups on the fibre surface to facilitate efficient coupling with the matrix. Physical methods change structural and surface properties of the fiber and thereby influence the interfacial bonding with matrices, without extensively changing the chemical composition of the fibers. They are cleaner and simpler than the chemical methods. Biological methods use biological agents like fungi, enzymes and bacteria to modify the fiber surface properties. These methods are not toxic like chemical methods and are not energy-intensive like physical methods.

Surface Treatment Methods of Natural Fibers and their Effects on Biocomposites presents an overview and recent developments of these methods. All the major methods are reviewed, explaining the science and methodology behind each method. The effects of these methods on various properties of fibers and the biocomposites made from these fibers are analyzed in detail.

The book will be an essential reference for academic researchers, materials scientists and engineers, postgraduate students and industrial researchers and development scientists and engineers working on natural fibers and biocomposites.

Key features

  • Extensive coverage of all the surface modification methods (chemical, physical, biological) of natural fibers and its effect on properties of produced composites
  • The chemical mechanisms which are utilized in surface treatments are discussed in detail and how these affect the interfacial properties and characteristics
  • Systematic and comprehensive review on surface modifications of natural fibres, and explains how the effect of the surface treatment can be characterized and measured, as well as the effect on properties

Readership

Postgraduate students (Master and Doctorate) academic and industrial scientists, and engineers working in chemistry, composite materials, material engineering and material science in natural fibre based composites materials

Table of contents

1. Natural fibers and surface treatment methods
Asim Shahzad, Carmen-Alice Teaca˘, and Fulga Tanasa

2. The effect of alkaline treatment on natural fibers/biopolymer composites
SI Magagula, JS Sefadi, and M.J. Mochane

3. Surface modification of natural fibers through esterification treatments
Carmen-Alice Teaca, Magdalena-Cristina Stanciu, Fulga Tanasa, Marioara Nechifor, and Alin Enache

4. Influence of silane modification on the properties of natural fibers and its effect on biocomposites
T.H. Mokhothu, A. Mtibe, T.C. Mokhena, and M.J. Mochane

5. Maleated coupling agents for the surface treatment of natural fibers
Marioara Nechifor, Fulga Tanasa˘, Carmen-Alice Teaca, and Dorin Şulea

6. Physical methods for the modification of the natural fibers surfaces
Fulga Tanasa, Carmen-Alice Teaca, Marioara Nechifor, and Magdalena-Cristina Stanciu

7. Biological pretreatments of lignocellulosic fibers and their effects on biocomposites performance
Raluca Nicoleta Darie-Nita, Diana Elena Ciolacu, and Roxana-Ana Vlase

8. Surface derivatization and grafting on self-assembled chitin nanofibers for modification, functionalization, and
application
Jun-ichi Kadokawa

9. The adhesion between lignocellulosic fiber and polymeric matrix: The effect of different fiber surface treatments and matrix modifications
Aitor Arbelaiz

10. The effects of surface treatment on creep and dynamic mechanical behavior of flax fiber reinforced composites under hygrothermal aging conditions
Xiaomeng Wang and Michal Petru

11. Current trends in surface treatments of natural fibers
V. Dharini, S. Periyar Selvam, Emmanuel Rotimi Sadiku, Anand Babu Perumal, and Reshma B. Nambiar

Product details

  • Edition: 1
  • Latest edition
  • Published: March 25, 2022
  • Language: English

About the editors

AS

Asim Shahzad

Dr Asim Shahzad has B. Eng. (Hons.) degree in mechanical engineering from Newcastle University, UK, and PhD degree on impact and fatigue properties of natural fiber composites from Swansea University, Swansea, UK. His area of research is biocomposites. He is particularly interested in the mechanical performance and the effects of various environments on the properties of these materials. He has published 12 peer reviewed journal articles, written 10 book chapters and edited one book as single editor. His review paper on hemp fiber and its composites is one of the most highly cited papers on biocomposites. He is on the reviewing panel of leading journals on composites.
Affiliations and expertise
Swansea University, Swansea, UK

FT

Fulga Tanasa

Dr Fulga Tanasă is a senior researcher at the Petru Poni Institute of Macromolecular Chemistry in Iasi, Romania, and her field of expertise includes extensive research on thermoplastic composite materials designed for various applications ranging from electronics and telecommunications to health care, from waste (wood and lignocellulosic fibers included) recovery and upcycling to food packaging, automotive industry, and structural applications, with emphasis not only on the practical part of the research, but also on the theoretical aspects, namely the phenomena occurring at the interface as a result of the characteristics of the interphase formed between matrix and filler/reinforcement. The list of papers (over 65) include 46 articles in peer reviewed journals, 20 chapters in books published at prestigious publishing houses (Taylor and Francis, Wiley, Springer, Elsevier, Transworld Research Network, Nova Science etc.), and 1 international patent. She is an active reviewer for high ranking scientific journals, and member of the Romanian Chemical Society since 2000.
Affiliations and expertise
Senior Researcher, Petru Poni Institute of Macromolecular Chemistry, Iasi, Romania

CT

Carmen-Alice Teaca

Dr Carmen-Alice Teacă is a senior researcher at the Petru Poni Institute of Macromolecular Chemistry in Iasi, Romania. She has B. Eng. degree in chemical engineering (pulp, paper and artificial fibers technology), and PhD degree on photosynthetic biosensors as indicators of environmental pollution from “Gh. Asachi” Technical University of Iasi, Romania. Her areas of research include separation and characterization of polymer components from wood fibers and other renewable resources, chemical modification of wood fibers and natural polymers (cellulose, lignin, starch) for valorization in composite systems, wood protection against degradation processes using natural products. She has published 52 articles in peer reviewed journals and written 8 chapters in books published at prestigious publishing houses (Springer, Elsevier, Smithers-Rapra, Wiley-Scrivener), some referring to the biocomposites including wood fibers, cellulose, and starch. She is member of editorial board of BioResources journal. She is an active reviewer for high ranking scientific journals and has been a member of the Romanian Chemical Society since 2000.
Affiliations and expertise
Senior Researcher, Petru Poni Institute of Macromolecular Chemistry, Iasi, Romania

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