Biocomposites: Design and Mechanical Performance Woodhead Publishing Series in Composites Science and Engineering Series
Coordonnateurs : Misra Manjusri, Pandey Jitendra Kumar, Mohanty Amar
Biocomposites: Design and Mechanical Performance describes recent research on cost-effective ways to improve the mechanical toughness and durability of biocomposites, while also reducing their weight.
Beginning with an introduction to commercially competitive natural fiber-based composites, chapters then move on to explore the mechanical properties of a wide range of biocomposite materials, including polylactic, polyethylene, polycarbonate, oil palm, natural fiber epoxy, polyhydroxyalkanoate, polyvinyl acetate, polyurethane, starch, flax, poly (propylene carbonate)-based biocomposites, and biocomposites from biodegradable polymer blends, natural fibers, and green plastics, giving the reader a deep understanding of the potential of these materials.
1 Commercially competitive natural fiber based composites
2 Mechanical performance of polylactic based formulations
3 Mechanical performance of polyethylene (PE) based biocomposites
4 Mechanical performance of polycarbonate (PC) based biocomposites
5 Mechanical properties of oil palm biocomposites enhanced with micro to nano biofillers
6 Nylon uses in biotechnology
7 Design, processing and characterization of triaxially braided natural fiber epoxy based composites
8 Mechanical performance of polyhydroxyalkanoate (PHA) based biocomposites
9 Mechanical performance of polyvinyl acetate (PVA) based biocomposites
10 Mechanical performance of polyurethane (PU) based biocomposites
11 Mechanical performance of starch based biocomposites
12 Polyolefin/biomass composites
13 Mechanical performance of flax based biocomposites
14 Studies on mechanical, thermal and morphological characteristics of biocomposites from biodegradable polymer blends and natural fibers
15 Mechanical performance of microcellular injection molded biocomposites from green plastics: PLA and PHBV
16 Mechanical performance of poly (propylene carbonate) based blends and composites
17 Processing, performance and applications of plant and animal protein based blends and their biocomposites
Professor Jitendra Kumar Pandey is a professor in University of Petroleum and Energy Studies, Dehradun, India. He completed his PhD in chemistry, and his research interests include materials synthesis, characterizations and their application in energy storage, and water treatment. He has published more than 50 research articles and reviews in peer-reviewed journals.
Amar Mohanty is Professor and Premier's Research Chair in Biomaterials and Transportation at the School of Engineering, University of Guelph, Canada. He is an internationally renowned and recognized research leader in the field of bioplastics, biomaterials and biorefinery. An accomplished researcher, his passion for implementable innovation and understanding trends in materials science and market needs makes him a trailblazer in sustainable green technology. He was the holder of the prestigious Alexander von Humboldt Fellowship at the Technical University of Berlin, Germany and received the Andrew Chase Forest Products Division Award from the Forest Products Division of the American Institute of Chemical Engineers (AIChE). Professor Mohanty has published more than 400 publications, including 185 peer-reviewed journal papers, 2 edited books, 11 book chapters and 12 awarded US patents.
- Describes recent research to improve the mechanical properties and performance of a wide range of biocomposite materials
- Explores the mechanical properties of a wide range of biocomposite materials, including polylactic, polyethylene, polycarbonate, oil palm, natural fiber epoxy, polyhydroxyalkanoate, polyvinyl acetate, and polyurethane
- Evaluates the potential of biocomposites as substitutes for petroleum-based plastics in industries such as packaging, electronic, automotive, aerospace and construction
- Includes contributions from leading experts in this field
Date de parution : 08-2015
Ouvrage de 524 p.
15x22.8 cm