Biobased Composites: Processing, Characterization, Properties, and Applications delivers a comprehensive treatment of all known characterization methods, properties, and industry applications of biobased composites materials. This unique, one-stop resource covers all major developments in the field from the last decade of research into this environmentally beneficial area.
The internationally recognized editors have selected resources that represent advances in the mechanical, thermal, tribological, and water sorption properties of biobased composites, and cover new areas of research in physico-chemical analysis, flame retardancy, failure mechanisms, lifecycle assessment, and modeling of biobased composites.
The low weight, low cost, excellent thermal recyclability, and biodegradability of biobased composites make them ideal candidates to replace engineered plastic products derived from fossil fuel. This book provides its readers with the knowledge they'll require to understand a new class of materials increasingly being used in the automotive and packaging industries, aerospace, the military, and construction. It also includes: - An extended discussion of the environmental impact of biobased composites using a life cycle methodology - A review of forecasts of natural fiber reinforced polymeric composites and its degradability concerns - An analysis of the physical and mechanical properties of a biobased composite with sisal powder - A comprehensive treatment of the mechanical, thermal, tribological, and dielectric properties of biobased composites - A review of processing methods for the manufacture of biobased composites
Perfect for materials scientists in private industry, government laboratories, or engaged in academic research, Biobased Composites will also earn a place in the libraries of industrial and manufacturing engineers who seek a better understanding of the beneficial industrial applications of biocomposites in industries ranging from automobiles to packaging.
List of Contributors
Chapter 1 Introduction to Bio-Based Composites
Chapter 2 Processing Methods for Manufacture of Bio-based Composites
Chapter 3 Physico-Chemical Analysis of Bio-Based Composites
Chapter 4 Characterization of Bio-Based Composites
Chapter 5 Mechanical, Thermal, Tribological, and Dielectric Properties of Bio-Based Composites
Chapter 6 Flame Retardancy of Bio-Based Composites
Chapter 7 Failure Mechanisms of Bio-based Composites
Chapter 8 Recent Advances and Technologies of Bio-Based Composites
Chapter 9 Bio-Composites for Energy Storage
Chapter 10 Analysis of the Physical and Mechanical Properties of A Biobased Composite with Sisal Powder
Chapter 11 Physico-Mechanical Properties of Bio-Based Composites
Chapter 12 Synthesis and Utilization of Biodegradable Polymers
Chapter 13 Forecasts of Natural Fiber Reinforced Polymeric Composites and Its Degradability Concerns – A Review
Chapter 14 Biofibers and Biopolymers for Biocomposites: in the Eyes of Spectroscopy
Chapter 15 Environmental Impact Study on Biobased Composites Using Life Cycle Methodology