Handbook of Thermosetting Foams, Aerogels, and Hydrogels
From Fundamentals to Advanced Applications
Kiadó: Elsevier
Megjelenés dátuma: 2024. május 31.
Normál ár:
Kiadói listaár:
EUR 235.00
EUR 235.00
Az Ön ára:
87 275 (83 120 Ft + 5% áfa )
Kedvezmény(ek): 10% (kb. 9 697 Ft)
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A termék adatai:
| ISBN13: | 9780323994521 |
| ISBN10: | 03239945211 |
| Kötéstípus: | Puhakötés |
| Terjedelem: | 662 oldal |
| Méret: | 234x191 mm |
| Nyelv: | angol |
| 700 |
Témakör:
Hosszú leírás:
Handbook of Thermosetting Foams, Aerogels, and Hydrogels: From Fundamentals to Advanced Applications presents the latest on the preparation, characterization, properties and applications of thermoset foams, aerogels and hydrogels. The book begins by introducing each of these concepts and their characteristics, current applications, potential for further development, and environmental impacts. This is followed by three sections, each focusing on foams, aerogels and hydrogels developed from a specific thermosetting polymer category, covering polyurethane, epoxy resins and formaldehyde. In each section, detailed coverage includes preparation, structure, characterization, properties, processing and applications based on material, along with key challenges in design, processing, implementation and solutions.This is a valuable resource for researchers and advanced students with an interest in thermoset lightweight materials across the disciplines of polymer science, chemistry, nanotechnology, materials science and engineering. The book will also be of interest to R&D professionals, engineers and scientists working with foams, hydrogels and aerogels for a range of applications and industries.
- Provides methodical coverage of polyurethane, epoxy and formaldehyde-based foams, aerogels and hydrogels
- Explores a range of high value applications across automotive and aerospace, defense, biomedicine, and other areas
- Considers challenges in design, processing and implementation, along with environmental aspects such as biodegradability and recyclability
Tartalomjegyzék:
Section I: Introduction to Thermosetting Foams, Aerogels, and Hydrogels
1. Introduction to foams, aerogels, hydrogels: Similarities and differences
2. Opportunities and versatile applications of thermoset foams, aerogels, and hydrogels
3. Environmental impact of thermoset resins, foams, aerogels, and hydrogels
Section II: Polyurethane-based Foams, Aerogels, and Hydrogels
4. Polyurethane: Structure, characterization, and properties
5. Polyurethane: Foaming processes and effect of process parameters on the properties of polyurethane 6. Polyurethane nanocomposite foams: Preparation, properties, and applications
7. Polyurethane-based hydrogels: Synthesis, properties, and modifications
8. Polyurethane-based aerogels: Preparation and applications
9. Polyurethane-based foam and aerogels for automotive and aerospace applications
10. Shape-memory polyurethane-based foam and aerogel
11. Biomedical applications of polyurethane hydrogels and aerogels
12. Challenges in design, processing, and use of polyurethane foam and aerogel materials
Section III: Epoxy-based foams, aerogels, and hydrogels
13. Epoxy: Synthesis, structure, and properties
14. Epoxy-based hydrogels, foams, and aerogel: Preparation, properties, and applications
15. Epoxy foaming processes and effects of process parameters on properties of epoxy foam
16. Reinforcing of epoxy foams with nanomaterials, reinforcing mechanism, and applications
17. Defense and aerospace applications of shape-memory epoxy foams
18. Epoxy-based nanocomposite foams and aerogels: Preparation, properties, and applications
19. Challenges in the use of epoxy foam and aerogel materials
Section IV: Formaldehyde-based foams, aerogels, and hydrogels
20. Phenolic resin: Preparation, structure, and properties
21. Foaming processes and applications of phenolic foams
22. Structure-property relationships and essential properties of phenolic foams
23. Application areas of phenolic foams and aerogels
24. Phenolic foams reinforced with nanomaterials: Preparation, properties, and applications
25. Melamine formaldehyde foams and aerogels: Preparation, properties, and applications
26. Urea formaldehyde foams and aerogels: Preparation, properties, and applications
27. Carbon foams and aerogels derived from thermosets: Preparation, properties, and applications
28. Challenges for formaldehyde foam and aerogel materials
1. Introduction to foams, aerogels, hydrogels: Similarities and differences
2. Opportunities and versatile applications of thermoset foams, aerogels, and hydrogels
3. Environmental impact of thermoset resins, foams, aerogels, and hydrogels
Section II: Polyurethane-based Foams, Aerogels, and Hydrogels
4. Polyurethane: Structure, characterization, and properties
5. Polyurethane: Foaming processes and effect of process parameters on the properties of polyurethane 6. Polyurethane nanocomposite foams: Preparation, properties, and applications
7. Polyurethane-based hydrogels: Synthesis, properties, and modifications
8. Polyurethane-based aerogels: Preparation and applications
9. Polyurethane-based foam and aerogels for automotive and aerospace applications
10. Shape-memory polyurethane-based foam and aerogel
11. Biomedical applications of polyurethane hydrogels and aerogels
12. Challenges in design, processing, and use of polyurethane foam and aerogel materials
Section III: Epoxy-based foams, aerogels, and hydrogels
13. Epoxy: Synthesis, structure, and properties
14. Epoxy-based hydrogels, foams, and aerogel: Preparation, properties, and applications
15. Epoxy foaming processes and effects of process parameters on properties of epoxy foam
16. Reinforcing of epoxy foams with nanomaterials, reinforcing mechanism, and applications
17. Defense and aerospace applications of shape-memory epoxy foams
18. Epoxy-based nanocomposite foams and aerogels: Preparation, properties, and applications
19. Challenges in the use of epoxy foam and aerogel materials
Section IV: Formaldehyde-based foams, aerogels, and hydrogels
20. Phenolic resin: Preparation, structure, and properties
21. Foaming processes and applications of phenolic foams
22. Structure-property relationships and essential properties of phenolic foams
23. Application areas of phenolic foams and aerogels
24. Phenolic foams reinforced with nanomaterials: Preparation, properties, and applications
25. Melamine formaldehyde foams and aerogels: Preparation, properties, and applications
26. Urea formaldehyde foams and aerogels: Preparation, properties, and applications
27. Carbon foams and aerogels derived from thermosets: Preparation, properties, and applications
28. Challenges for formaldehyde foam and aerogel materials