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Industrial Applications of Renewable Plastics
Environmental, Technological, and Economic Advances
Detailed, authoritative coverage of the different types, costs, properties, and applications of a range of renewable plastics
Michel Biron (Author)
9780323480659, Elsevier Science
Hardback, published 11 November 2016
632 pages
27.6 x 21.5 x 3.4 cm, 1.33 kg
Industrial Applications of Renewable Plastics: Environmental, Technological, and Economic Advances provides practical information to help engineers and materials scientists deploy renewable plastics in the plastics market. It explores the uses, possibilities, and problems of renewable plastics and composites to assist in material selection and rejection. The designer’s main problems are examined, along with basic reminders that deal with structures and processing methods that can help those who are generally familiar with metals understand the unique properties of plastic materials. The book offers a candid overview of main issues, including conservation of fossil resources, geopolitical considerations, greenhouse effects, competition with food crops, deforestation, pollution, and disposal of renewable plastics. In addition, an overview of some tools related to sustainability (Life cycle assessments, CO2 emissions, carbon footprint, and more) is provided. The book is an essential resource for engineers and materials scientists involved in material selection, design, manufacturing, molding, fabrication, and other links in the supply chain of plastics. The material contained is of great relevance to many major industries, including automotive and transport, packaging, aeronautics, shipbuilding, industrial and military equipment, electrical and electronics, energy, and more.
1. Outline of the Actual Situation of Plastics Compared to Conventional Materials 2. Genesis of Renewable Plastics and Integration in the Plastics Stream 3. Recycling: The First Source of Renewable Plastics 4. Renewable Plastics Derived From Natural Polymers 5. Biobricks: The Breakthrough of Drop-In Solutions 6. Renewable Alloys, Compounds, Composites, and Additives 7. Environmental Impact of Renewable Plastics: Pros and Cons, Indicators 8. Application Examples 9. Renewable Plastics and Ingredients: Economic Overview 10. Future Prospects
Subject Areas: Materials science [TGM], Plastics & polymers technology [TDCP], Industrial chemistry [TDC]
