Technology and Applications of Polymers Derived from Biomass
Plastics Design Library Series

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Language: English

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Technology and Applications of Polymers Derived from Biomass explores the range of different possible routes from biomass to polymeric materials, including the value and limitations of using biomass in material applications and a comparison of petrochemical-derived polymers and bio-based polymers. The book discusses biomass sources, types, chemistry and handling concerns. It covers the manufacture of industrial chemicals from biomass and the derivation of monomers and polymers from biomass. It also details the processing and applications of biomass-derived polymers to enable materials scientists and engineers realize the potential of biomass as a sustainable source of polymers, including plastics and elastomers.

The book is a one-stop-shop reference?giving students a basic understanding of the technology and how the material can be applied to industrial processes they will face in the workforce, and giving materials engineers and product designers the information they need to make more informed material selection decisions.

1. Introduction2. Biomass and its Sources3. Chemistry of Biomass4. Biomass Conversion Approaches5. Use of Raw Biomass and its Conversion to Energy6. Biomass Logistics and Economics7. Manufacturing Industrial Chemicals from Biomass8. Derivation of Monomers from Biomass9. Polymerization of Biomass-based Monomers10. Direct Derivation of Polymers from Biomass11. Processing of Biomass Derived Polymers12. Material and Energy Balance for Conversion of Biomass Materials13. Applications of Biomass Derived Polymers14. Environmental Impact of Biomass Conversion

Product development engineers in the field of plastics, particularly in processing and production of biopolymers. Design engineers involved in creating new products and substituting biopolymers into existing products, particularly in packaging, automotive, medical sectors. Biopolymer researchers seeking to learn more about the raw materials of these polymers, and potential applications.

Dr. Syed Ali Ashter is the Founder of Ashter Enterprise, LLC, a material evaluation, product development and quality compliance consulting company, which he founded in 2020. He also works as a Senior Engineering Specialist at B. Braun Medical Inc. in Irvine California. He has served on the Board of Directors for the Society of Plastics Engineer’s Medical Plastics Division (MPD) since 2012. Recently, he has completed 2-year term as the chair of the Medical Plastics Division. He has authored four Plastics Engineering books in the Plastics Design Library Handbook Series.
  • Provides fundamental understanding of an increasingly important approach to sourcing polymeric materials
  • Includes actionable, relevant information to enable materials engineers and product designers consider biomass-derived polymers in the products they are developing
  • Discusses the environmental impact of biomass conversion to help readers improve the sustainability of their operations
  • Compares petrochemical-derived polymers with bio-based polymers