Sustainable Biopolymer Composites Books

Click Get Book Button To Download or read online Sustainable Biopolymer Composites books, Available in PDF, ePub, Tuebl and Kindle. This site is like a library, Use search box in the widget to get ebook that you want.

Sustainable Biopolymer Composites


Sustainable Biopolymer Composites
  • Author : Deepak Verma
  • Publisher : Woodhead Publishing
  • Release : 2021-07-15
  • ISBN : 0128222913
  • Language : En, Es, Fr & De
GET BOOK

Sustainable Advanced Bio-Polymer Composites: Biocompatibility, Self-healing, Modeling, Repair and Recyclability focuses on sustainable polymer composites also referred to as bio- composites. Vital aspects such as biodegradability, bio-compatibility, repair and recyclability are discussed in detail. Complexities like rapid and scalable processing, onsite repair, and minimal environmental effects (reduced carbon emission) are also covered as well as discussion on the appropriateness of advanced polymer composites for structural applications in automotive, aviation, and the marine industry. The composites repair process is extremely complex, and it is essential to have a comprehensive understanding of the damage mechanisms in order to apply the most suitable repair technique. Damage assessment using onsite inspection e.g. NDT, THz techniques and the automated repair process for reliability and repeatability are vital parameters when executing bonded composites repair. Furthermore, overall integrity and structural health monitoring of composites repair is also necessary. Sustainable Biopolymer Composites: Biocompatibility, Self-healing, Modeling, Repair and Recyclability contains key chapters on modeling and simulation of composites damage mechanisms with respect to the specific environment and application. Processing and damage mechanisms are also discussed as well as self-healing properties. The book will be an indispensable resource for the growing number of scientists, engineers, physicists, and chemists, who are interested in the preparation, applications and repair analysis of bio-based composites and nano-composites for different types of final application. It will also be useful for industrial scientists who are active in the formulation, fabrication and repair of polymer products based on renewable resources. Features detailed information on damage detection, failure analysis and repair of advanced bio-polymer composites Emphasis on biocompatibility, degradation and recyclability of these materials Features key chapters on molecular dynamics, multi-scale modelling and self-healing Provides a Roadmap for materials selection, processing and industrial utilization for a broad range of applications Economic, social impact and environmental aspects are also be discussed

Advances in Sustainable Polymer Composites


Advances in Sustainable Polymer Composites
  • Author : Md Rezaur Rahman
  • Publisher : Woodhead Publishing
  • Release : 2020-09-15
  • ISBN : 9780128203422
  • Language : En, Es, Fr & De
GET BOOK

Advances in Sustainable Polymer Composites reviews recent scientific findings on the production and use of sustainable polymers and composites as innovative new materials. The book discusses the importance of sustainable polymers in terms of current practices and how to address environmental and economic issues. Attention is focused on the physical, chemical and electrical properties of these composites. The book also looks at the lifecycle of both single and hybrid polymers and nanocomposites, with chapters covering the latest research findings on sustainable polymer composites with various filler loadings and their improvement on compatibility. From the viewpoint of polymer composites, this book covers not only well-known sustainable future trends in sustainable polymers and composites, but also advanced materials produced from micro, nano and pico-scale fillers that achieve better physical and mechanical results. Features advanced materials produced from micro, nano and pico-scale fillers Emphasizes the modeling and prediction of thermal, rheological and mechanical behavior Covers various types of fillers and different reinforcement agents Focuses on all aspects of fabrication, characterization and applications Addresses sustainability approaches and solutions

Sustainable Polymer Composites and Nanocomposites


Sustainable Polymer Composites and Nanocomposites
  • Author : Inamuddin
  • Publisher : Springer
  • Release : 2019-02-01
  • ISBN : 9783030053994
  • Language : En, Es, Fr & De
GET BOOK

This book presents emerging economical and environmentally friendly polymer composites that are free of the side effects observed in traditional composites. It focuses on eco-friendly composite materials using granulated cork, a by-product of the cork industry; cellulose pulp from the recycling of paper residues; hemp fibers; and a range of other environmentally friendly materials procured from various sources. The book presents the manufacturing methods, properties and characterization techniques of these eco-friendly composites. The respective chapters address classical and recent aspects of eco-friendly polymer composites and their chemistry, along with practical applications in the biomedical, pharmaceutical, automotive and other sectors. Topics addressed include the fundamentals, processing, properties, practicality, drawbacks and advantages of eco-friendly polymer composites. Featuring contributions by experts in the field with a variety of backgrounds and specialties, the book will appeal to researchers and students in the fields of materials science and environmental science. Moreover, it fills the gap between research work in the laboratory and practical applications in related industries.

Sustainable Engineering of Biopolymer Composites


Sustainable Engineering of Biopolymer Composites
  • Author : Cecily A. Ryan
  • Publisher :
  • Release : 2016
  • ISBN : OCLC:951370905
  • Language : En, Es, Fr & De
GET BOOK

Biodegradable plastics and composites have the potential to replace traditional plastics and their composites in a variety of applications, thereby enabling sustainable material and energy life-cycles. The envisioned material life-cycle that is investigated here, is a microbially produced class of bioplastics, poly(hydoxyalkanoates) (PHAs), which can be anaerobically degraded at the end of their serviceable life into a methane-rich feedstock. By recovering methane produced from controlled anaerobic digestion (AD) of this bioplastic and its composites at end-of-life, these materials can be engineered to create a sustainable and industrially viable material cycle. The application primarily addressed in this work is biodegradable wood-plastic composites (WPCs), bio-WPCs, that can be used in large-volume applications, such as the construction industry. This work is also applicable to bioplastic applications, such as containers and packaging. Widespread adoption of these and other bioplastic-natural fiber composites has the potential to reduce greenhouse gas emissions, the consumption of fossil fuels as a material feedstock, and the accumulation of plastic in the environment and in landfills. In order understand and engineer this material cycle, one must understand the biogas production properties, such as rate and quantity, in the end-of-life anaerobic degradation process. This work investigates relationship between processing, properties, and biodegradation of biodegradable polymers (bioplastics) and biocomposites by (i) evaluating kinetic models to for bioplastic degradation and methane recovery, (ii) developing a methodology that can be used to predict and model methane generation from bioplastics and biocomposites, and (iii) investigating the anaerobic degradation mechanisms of these materials in simulated anaerobic landfills or AD facilities. The results from this work can be used as inputs to life-cycle assessments of material end-of-life, to help optimize biocomposite materials properties, and design future resource recovery centers targeted for biopolymer and biocomposite degradation, methane collection, and biopolymer production.

Biopolymer Composites in Electronics


Biopolymer Composites in Electronics
  • Author : Kishor Kumar Sadasivuni
  • Publisher : Elsevier
  • Release : 2016-09-10
  • ISBN : 9780081009741
  • Language : En, Es, Fr & De
GET BOOK

Biopolymer Composites in Electronics examines the current state-of-the-art in the electronic application based on biopolymer composites. Covering the synthesis, dispersion of fillers, characterization and fabrication of the composite materials, the book will help materials scientists and engineers address the challenges posed by the increased use of biopolymeric materials in electronic applications. The influence of preparation techniques on the generation of micro, meso, and nanoscale fillers, and the effect of filler size and dispersion on various biopolymers are discussed in detail. Applications covered include sensors, actuators, optics, fuel cells, photovoltaics, dielectrics, electromagnetic shielding, piezoelectrics, flexible displays, and microwave absorbers. In addition, characterization techniques are discussed and compared, enabling scientists and engineers to make the correct choice of technique. This book is a ‘one-stop’ reference for researchers, covering the entire state-of-the-art in biopolymer electronics. Written by a collection of expert worldwide contributors from industry, academia, government, and private research institutions, it is an outstanding reference for researchers in the field of biopolymer composites for advanced technologies. Enables researchers to keep up with the rapid development of biopolymer electronics, which offer light, flexible, and more cost-effective alternatives to conventional materials of solar cells, light-emitting diodes, and transistors Includes thorough coverage of the physics and chemistry behind biopolymer composites, helping readers to become rapidly acquainted with the fiel Provides in-depth information on the range of biopolymer applications in electronics, from printed flexible conductors and novel semiconductor components, to intelligent labels, large area displays, and solar panels