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Poly(vinyl chloride)-based Blends, Interpenetrating Polymer Networks (IPNs), and Gels de Sabu Thomas

Poly(vinyl chloride)-based Blends, Interpenetrating Polymer Networks (IPNs), and Gels

Editat de Sabu Thomas, H. Akhina
en Limba Engleză Paperback – 2 apr 2024
Poly(vinyl chloride)-based Blends, Interpenetrating Polymer Networks (IPNs), and Gels brings together the latest research on the blending of PVC, covering processing, materials, properties, and applications. This book addresses these challenges and highlights the state of the art in the fi eld, such as the development of eco-friendly micro- and nanostructured functional materials based on PVC and advances in experimental and theoretical studies of PVC-based polymer blends. This is a valuable resource for researchers and advanced students in polymer science, chemistry, composite science, and materials science and engineering, as well as R&D professionals, engineers, and scientists working with advanced PVC-based materials across a range of industries.

  • Offers methodical, in-depth coverage of PVC-based blends, IPNs, and gels with each polymer type
  • Explains advanced methods for PVC-based materials with improved properties for a range of novel applications
  • Provides avenues for improved sustainability, discussing PVC from biomass, life cycle, recycling, and other environmental considerations
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Specificații

ISBN-13: 9780323994743
ISBN-10: 0323994741
Pagini: 644
Dimensiuni: 191 x 235 x 33 mm
Greutate: 0.45 kg
Editura: ELSEVIER SCIENCE

Public țintă

Academia: Researchers and advanced students in polymer science, chemistry, composite science, and materials science and engineering.
Industry: R&D professionals, engineers, and scientists working with advanced PVC-based materials, across a range of applications and industries (e.g. construction, electronics, biomedicine, consumer goods, aerospace, etc.).

Cuprins

  1. PVC blends, IPNs, and gels: an overview
  2. Synthesis, compounding, processing, morphology, structure, and properties of PVC
  3. PVC/polyolefins blends, IPNs, and gels
  4. PVC/polystyrene blends, IPNs, and gels
  5. PVC/acrylic blend, IPN, and gels
  6. Poly(vinyl chloride)/vinyl plastic blends, interpenetrating polymeric networks, and gels
  7. Polyvinyl chloride/engineering polymer blends, interpenetrating polymeric networks, and gels
  8. Poly(vinyl chloride)/block copolymers, blends, interpenetrating networks, and gels
  9. PVC/polycarbonate blends, IPNs, and gels
  10. Rheological behavior of PVC-based blends, IPNs, and gels
  11. Morphology-property correlation in PVC-based blends, IPNs, and gels
  12. Impact modification in PVC blends, IPNs, and gels
  13. Microscopy of polyvinyl chloride-based blends, interpenetrating polymeric networks, and gels
  14. Spectroscopy of PVC-based blends, IPNs, and gels
  15. Miscibility and immiscibility in PVC-based blends, IPNs, and gels
  16. Dynamic mechanical analyzer of PVC blends, IPNs, and gels
  17. Conducting polymer blends, interpenetrating polymeric networks, and gels based on polyvinyl chloride
  18. Aging properties of poly(vinyl chloride)-based blends, interpenetrating polymer networks, and gels
  19. Surface analysis of poly(vinyl chloride)-based blends
  20. Ecological and recycling perspectives of the polyvinyl chloride blends, gels, and interpenetrating polymer networks
  21. Regulatory aspects of the use of PVC and its blends, gels, and IPNs
  22. Applications of PVC-based blends, IPNs, and gels for biomedical fields