Thermal Degradation of Polymeric Materials (2nd Ed.)
Auteurs : Pielichowski Krzysztof, Njuguna James, Majka Tomasz M.
Thermal Degradation of Polymeric Materials, Second Edition offers a wealth of information for polymer researchers and processors who require a thorough understanding of the implications of thermal degradation on materials and product performance. Sections cover thermal degradation mechanisms and kinetics, as well as various techniques, such as thermogravimetry in combination with mass spectroscopy and infrared spectrometry to investigate thermal decomposition routes. Other chapters focus on polymers and copolymers, including polyolefins, styrene polymers, polyvinyl chloride, polyamides, polyurethanes, polyesters, polyacrylates, natural polymers, inorganic polymers, high temperature-resistant and conducting polymers, blends, organic-inorganic hybrid materials, nanocomposites, and biocomposites.
Finally, other key considerations such as recycling of polymers by thermal degradation, thermal degradation during processing, and modelling, are discussed in detail.
2. Mechanisms of Thermal Degradation of Polymers
3. Thermooxidative Degradation of Polymers
4. Thermal Degradation Techniques
5. Kinetics of Thermal Degradation
6. Thermal Degradation of Polymers, Copolymers and Blends
7. Thermal Degradation of Natural Polymers
8. Thermal Degradation of Inorganic Polymers
9. Thermal Degradation of High Temperature-Resistant Polymers
10. Thermal Degradation of Conducting Polymers
11. Thermal Degradation of Organic-Inorganic Hybrid Materials
12. Thermal Degradation of Polymer (Nano)composites
13. Thermal Degradation of Biocomposites
14. Recycling of Polymers by Thermal Degradation
15. Thermal Degradation During Processing of Polymers
16. Modelling of Thermal Degradation Process
17. Thermal Degradation of Polymeric Materials: Conclusions and Future Outlook
Prof. James Njuguna is the Academic Strategic Lead (Research) in Composite Materials at Robert Gordon University. He holds both PhD and MSc in Aeronautical Engineering from City, University of University. Dr. Njuguna is a Fellow of The Institute of Materials, Minerals and Mining. He is a former Marie Curie Fellow and Research Councils United Kingdom (RCUK) Fellow. He has held various academic positions at Cracow University of Technology (Poland) and Cranfield University (UK). His research interests are focused on polymer (nano)composites – their fabrication, characterisation of thermal and mechanical properties, and safe disposal.
Dr. Tomasz M. Majka is Assistant Professor at the Department of Chemistry and Technology of Polymers, Cracow University of Technology. He is an expert in polymer technology, especially in the area of pyrolysis and flammability of composite polymeric materials. Research works are focused on new flame retardants and heat stabilizers for engineering (construction) polymers, such as polyamides and polyoxymethylene. Member of the Polish Committee for Standardization, Technical Committee No. 141 – Plastics.
- Explains mechanisms of polymer degradation, making it possible to understand and predict material behavior at elevated temperatures
- Offers systematic coverage of each polymer group that is supported by data detailed explanations and critical analysis
- Investigates thermal decomposition routes in new materials, such as organic-inorganic hybrid materials and polymer nanocomposites
Date de parution : 11-2022
Ouvrage de 378 p.
19x23.4 cm
Thèmes de Thermal Degradation of Polymeric Materials :
Mots-clés :
?Activation energy; Aromatic polyamides; Biocomposites; Blends; Carbon nanotubes; Cellulose; Cellulose nanocrystals; Chitin; Chitosan; Conducting polymers; Copolymers; Coupled techniques; Decomposition; Degradation; Depolymerization; Differential scanning calorimetry; Extrusion; Functionalization; Functionalized silica; Future outlook; Graphene; High temperature-resistant polymers; Hybrid materials; Injection molding; Inorganic polymers; Isoconversional methods; Kinetics; Layered silicates; Lignin; Lignocellulosic fibers; MALDI; Mechanism; Modeling; Nano-hybrid; Nanocomposites; Nanofibers; Nanofilers; Natural polymers; Natural rubber; Organic–inorganic hybrid; PEEK; POSS; Perspectives of polymer materials; Polyaniline; Polybenzimidazoles; Polybenzoxazines; Polybismaleimides; Polymer; Polymeric composites; Polymers; Polyphosphazenes; Polypyrrole; Polysilanes; Polysilazanes; Polysiloxanes; Polythiophene; Porous composites; Processing; Proteins; Pyrolysis; Radical mechanism; Random scission; Rotational molding; Side group elimination; Starch; Thermal degradation; Thermal recycling; Thermogravimetry; Thermooxidative degradation