Polymer Composites Derived from Animal Sources Woodhead Publishing in Materials Series
Langue : Anglais
Coordonnateurs : Sapuan S. M., Azhari C. H., Nurazzi N. M.
Polymer Composites Derived from Animal Sources presents a systematic review of recent developments in this important research field. The book provides a thorough introduction to the various types of animal-based material resources currently available and discusses their morphology, extraction process, sustainability, formation, properties, and applications. Emphasis is placed on applications of polymer composites derived from wool, silk, chicken, bovine, marine life, and animal waste. Different types of processing techniques are discussed in detail as well as chemical modification, interfacial adhesion, and the structure-property relationship. The book will be a valuable reference resource for academic and industrial researchers, and materials scientists and engineers working on the research and development of natural-based composites derived from animal sources.
Section I An overview of animal-based composites
1 An introduction to animal-based composites: possible animal-derived materials and the extraction process
2 Wool fiber-reinforced polymer composites
3 Interlaminar fracture characteristics of woven silk fiber composites
4 Bovine as biofiller in biocomposites
5 Chicken featherreinforced polymer composites
6 Development, characterization, and applications of eggshell-based hydroxyapatite composites
7 Sustainable biomaterials based on chitin and chitosan composites
8 Collagen-based biocomposites
9 Development and characterization of crab-based chitosan filler-reinforced polymer composites
Section II Animal-based composites: applications and future perspectives
10 Design and fabrication of Bombyx mori silk/epoxy composite solar racing car body
11 Energy attenuation capability of woven natural silk/epoxy laminates subjected to drop weight impacts
12 Keratin-based biomaterials for biomedical applications
13 Mechanical performance of seashell-reinforced polymer composites for structural applications
14 Marine-derived collagen composites for bone regeneration: extraction and performance evaluation
15 Cow bone as reinforcement fillers in polymer composites for structural applications
16 Preparation, characterization and application of nanocellulose from tunicate for electronic applications
17 Structural and performance of chitosan-based polymer composites for electrical applications
18 Challenges, environmental concerns, and future perspectives for animal-based composites
19 Environmental and economic issues for animal-based composites
1 An introduction to animal-based composites: possible animal-derived materials and the extraction process
2 Wool fiber-reinforced polymer composites
3 Interlaminar fracture characteristics of woven silk fiber composites
4 Bovine as biofiller in biocomposites
5 Chicken featherreinforced polymer composites
6 Development, characterization, and applications of eggshell-based hydroxyapatite composites
7 Sustainable biomaterials based on chitin and chitosan composites
8 Collagen-based biocomposites
9 Development and characterization of crab-based chitosan filler-reinforced polymer composites
Section II Animal-based composites: applications and future perspectives
10 Design and fabrication of Bombyx mori silk/epoxy composite solar racing car body
11 Energy attenuation capability of woven natural silk/epoxy laminates subjected to drop weight impacts
12 Keratin-based biomaterials for biomedical applications
13 Mechanical performance of seashell-reinforced polymer composites for structural applications
14 Marine-derived collagen composites for bone regeneration: extraction and performance evaluation
15 Cow bone as reinforcement fillers in polymer composites for structural applications
16 Preparation, characterization and application of nanocellulose from tunicate for electronic applications
17 Structural and performance of chitosan-based polymer composites for electrical applications
18 Challenges, environmental concerns, and future perspectives for animal-based composites
19 Environmental and economic issues for animal-based composites
S.M. Sapuan is an ‘A’ grade Professor of Composite Materials in the Department of Mechanical and Manufacturing Engineering, at the Universiti Putra Malaysia. He is also Head of the Advanced Engineering Materials and Composite Research Centre (AEMC) at UPM. He attained his BEng in Mechanical Engineering from the University of Newcastle, in Australia, and then went on to receive his MSc in Engineering Design, and PhD in Materials Engineering, from De Montfort University in the UK. He is a Professional Engineer, and a fellow of many professional societies including the Society of Automotive Engineers; The Academy of Science Malaysia; the International Society for Development and Sustainability; the Plastic and Rubber Institute Malaysia (PRIM); the Malaysian Scientific Association and the Institute of Materials Malaysia. He is an Honorary Member and past Vice President of the Asian Polymer Association and Founding Chairman and Honorary Member of The Society of Sugar Palm Development and Industry, Malaysia. During the course of his career, he has produced over 2000 publications including 880 journal papers, 55 books, and 180 book chapters..
C.H. Azhari (also known as Che Husna Azhari) is an Emeritus Professor in the Department of Mechanical and Materials Engineering, Universiti Kebangsaan Malaysia (UKM). Professor Azhari was conferred the Emeritus Professorship in Polymer Processing from the Universiti Kebangsaan Malaysia (UKM) in April 2021, having served as an academic in the Faculty of Engineering and the Built Environment for more than 30 years. She was awarded her undergraduate and PhD degrees from Brunel University, in the UK. Her research specialisation is in non-metallic materials processing. Prof Husna is a Chartered Engineer of the Engineering Council of the UK and a Fellow of the Institute of Materials, Malaysia.
N. M. Nurazzi is a senior lecturer at the School of Industrial Technology, Universiti Sains Malaysia, Penang, Malaysia. Before joining the Uni
C.H. Azhari (also known as Che Husna Azhari) is an Emeritus Professor in the Department of Mechanical and Materials Engineering, Universiti Kebangsaan Malaysia (UKM). Professor Azhari was conferred the Emeritus Professorship in Polymer Processing from the Universiti Kebangsaan Malaysia (UKM) in April 2021, having served as an academic in the Faculty of Engineering and the Built Environment for more than 30 years. She was awarded her undergraduate and PhD degrees from Brunel University, in the UK. Her research specialisation is in non-metallic materials processing. Prof Husna is a Chartered Engineer of the Engineering Council of the UK and a Fellow of the Institute of Materials, Malaysia.
N. M. Nurazzi is a senior lecturer at the School of Industrial Technology, Universiti Sains Malaysia, Penang, Malaysia. Before joining the Uni
- Provides a comprehensive reference on the preparation and applications of high-performance polymer composites derived from animal sources
- Covers materials selection, design solutions, manufacturing techniques, characterization, structural analysis, and performance for various applications
- Includes extraction methods, surface treatment, and modification and fabrication methods
- Focuses on economic and environmental aspects
Date de parution : 04-2024
Ouvrage de 446 p.
15.2x22.8 cm
Thèmes de Polymer Composites Derived from Animal Sources :
Mots-clés :
Biomimetic; Composite materials; Protein fibre; Keratin; Fibrous products
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