Handbook of Thermosetting Foams, Aerogels, and Hydrogels
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portes grátis
Handbook of Thermosetting Foams, Aerogels, and Hydrogels
From Fundamentals to Advanced Applications
Raghavan, Prasanth; Ravindran, Lakshmipriya; Sreekala, M.S.; Menon, Ankitha
Elsevier - Health Sciences Division
06/2024
684
Mole
Inglês
9780323994521
15 a 20 dias
Descrição não disponível.
Section I: Introduction
1. Foams, aerogels and hydrogels: The state of the art and prospective technologies.
2. Opportunities and versatile applications of thermoset foams, aerogels, and hydrogels: Current state of the art and anticipated developments
3. Environmental impact and recycling technologies of thermoset resin, foams, aerogels and hydrogels
Section II: Polyurethane-based Foams, Aerogels, and Hydrogels
4. Polyurethane (PU): Structure, properties, and applications
5. Polyurethane foam: The foaming process and the effect of process parameters on properties
6. Polyurethane nanocomposite foams: Preparation, properties and applications
7. Polyurethane based hydrogels synthesis, properties, and modifications
8. Polyurethane-based aerogels: Preparation, properties, and applications
9. Polyurethane-based foam and aerogels for automotive and aerospace applications
9. Shape memory polyurethane-based foams and aerogels
10. Challenges in design, processing and use of PU foam/aerogel materials
Section III: Epoxy-based foams, aerogels, and hydrogels
11. Epoxy resins: Synthesis, structure, and properties
12. Epoxy-based hydrogels: Network design, characterization, and applications
13. Epoxy: Foaming processes and the effect of process parameters on properties of epoxy foam
14. Epoxy foams reinforcing with nanomaterials: Synthesis, mechanical properties and applications
15. Shape memory epoxy foam-defense and aerospace applications
Section IV: Formaldehyde-based foams, aerogels, and hydrogels
16. Phenolic resin: Preparation, structure, properties, and applications
17. Phenolic foams: Foaming processes and applications
18. Phenolic foams: Structure-property relationships and insulating properties
19. Phenolic aerogels: Preparation, properties, and applications
20. Phenolic foams reinforced with nanomaterials: Preparation, properties, and applications
21. Melamine-formaldehyde hydrogels, foams, and aerogels: Preparation, properties and applications
22. Urea formaldehyde foams, aerogels and hydrogels: Preparation, properties and applications
23. Carbon foams derived from thermosetting polymers: Preparation, properties and applications
24. Carbon foams derived from phenol and melamine formaldehyde thermosetting polymers: Preparation, properties, and applications
25. Carbon foams derived from thermosetting epoxy, polyimides and cellulosic polymers: Environmental and electrical or electrochemical applications
1. Foams, aerogels and hydrogels: The state of the art and prospective technologies.
2. Opportunities and versatile applications of thermoset foams, aerogels, and hydrogels: Current state of the art and anticipated developments
3. Environmental impact and recycling technologies of thermoset resin, foams, aerogels and hydrogels
Section II: Polyurethane-based Foams, Aerogels, and Hydrogels
4. Polyurethane (PU): Structure, properties, and applications
5. Polyurethane foam: The foaming process and the effect of process parameters on properties
6. Polyurethane nanocomposite foams: Preparation, properties and applications
7. Polyurethane based hydrogels synthesis, properties, and modifications
8. Polyurethane-based aerogels: Preparation, properties, and applications
9. Polyurethane-based foam and aerogels for automotive and aerospace applications
9. Shape memory polyurethane-based foams and aerogels
10. Challenges in design, processing and use of PU foam/aerogel materials
Section III: Epoxy-based foams, aerogels, and hydrogels
11. Epoxy resins: Synthesis, structure, and properties
12. Epoxy-based hydrogels: Network design, characterization, and applications
13. Epoxy: Foaming processes and the effect of process parameters on properties of epoxy foam
14. Epoxy foams reinforcing with nanomaterials: Synthesis, mechanical properties and applications
15. Shape memory epoxy foam-defense and aerospace applications
Section IV: Formaldehyde-based foams, aerogels, and hydrogels
16. Phenolic resin: Preparation, structure, properties, and applications
17. Phenolic foams: Foaming processes and applications
18. Phenolic foams: Structure-property relationships and insulating properties
19. Phenolic aerogels: Preparation, properties, and applications
20. Phenolic foams reinforced with nanomaterials: Preparation, properties, and applications
21. Melamine-formaldehyde hydrogels, foams, and aerogels: Preparation, properties and applications
22. Urea formaldehyde foams, aerogels and hydrogels: Preparation, properties and applications
23. Carbon foams derived from thermosetting polymers: Preparation, properties and applications
24. Carbon foams derived from phenol and melamine formaldehyde thermosetting polymers: Preparation, properties, and applications
25. Carbon foams derived from thermosetting epoxy, polyimides and cellulosic polymers: Environmental and electrical or electrochemical applications
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
thermoset; foam; aerogel; hydrogel; polyurethane; epoxy; formaldehyde; application; properties; preparation; lightweight; materials
Section I: Introduction
1. Foams, aerogels and hydrogels: The state of the art and prospective technologies.
2. Opportunities and versatile applications of thermoset foams, aerogels, and hydrogels: Current state of the art and anticipated developments
3. Environmental impact and recycling technologies of thermoset resin, foams, aerogels and hydrogels
Section II: Polyurethane-based Foams, Aerogels, and Hydrogels
4. Polyurethane (PU): Structure, properties, and applications
5. Polyurethane foam: The foaming process and the effect of process parameters on properties
6. Polyurethane nanocomposite foams: Preparation, properties and applications
7. Polyurethane based hydrogels synthesis, properties, and modifications
8. Polyurethane-based aerogels: Preparation, properties, and applications
9. Polyurethane-based foam and aerogels for automotive and aerospace applications
9. Shape memory polyurethane-based foams and aerogels
10. Challenges in design, processing and use of PU foam/aerogel materials
Section III: Epoxy-based foams, aerogels, and hydrogels
11. Epoxy resins: Synthesis, structure, and properties
12. Epoxy-based hydrogels: Network design, characterization, and applications
13. Epoxy: Foaming processes and the effect of process parameters on properties of epoxy foam
14. Epoxy foams reinforcing with nanomaterials: Synthesis, mechanical properties and applications
15. Shape memory epoxy foam-defense and aerospace applications
Section IV: Formaldehyde-based foams, aerogels, and hydrogels
16. Phenolic resin: Preparation, structure, properties, and applications
17. Phenolic foams: Foaming processes and applications
18. Phenolic foams: Structure-property relationships and insulating properties
19. Phenolic aerogels: Preparation, properties, and applications
20. Phenolic foams reinforced with nanomaterials: Preparation, properties, and applications
21. Melamine-formaldehyde hydrogels, foams, and aerogels: Preparation, properties and applications
22. Urea formaldehyde foams, aerogels and hydrogels: Preparation, properties and applications
23. Carbon foams derived from thermosetting polymers: Preparation, properties and applications
24. Carbon foams derived from phenol and melamine formaldehyde thermosetting polymers: Preparation, properties, and applications
25. Carbon foams derived from thermosetting epoxy, polyimides and cellulosic polymers: Environmental and electrical or electrochemical applications
1. Foams, aerogels and hydrogels: The state of the art and prospective technologies.
2. Opportunities and versatile applications of thermoset foams, aerogels, and hydrogels: Current state of the art and anticipated developments
3. Environmental impact and recycling technologies of thermoset resin, foams, aerogels and hydrogels
Section II: Polyurethane-based Foams, Aerogels, and Hydrogels
4. Polyurethane (PU): Structure, properties, and applications
5. Polyurethane foam: The foaming process and the effect of process parameters on properties
6. Polyurethane nanocomposite foams: Preparation, properties and applications
7. Polyurethane based hydrogels synthesis, properties, and modifications
8. Polyurethane-based aerogels: Preparation, properties, and applications
9. Polyurethane-based foam and aerogels for automotive and aerospace applications
9. Shape memory polyurethane-based foams and aerogels
10. Challenges in design, processing and use of PU foam/aerogel materials
Section III: Epoxy-based foams, aerogels, and hydrogels
11. Epoxy resins: Synthesis, structure, and properties
12. Epoxy-based hydrogels: Network design, characterization, and applications
13. Epoxy: Foaming processes and the effect of process parameters on properties of epoxy foam
14. Epoxy foams reinforcing with nanomaterials: Synthesis, mechanical properties and applications
15. Shape memory epoxy foam-defense and aerospace applications
Section IV: Formaldehyde-based foams, aerogels, and hydrogels
16. Phenolic resin: Preparation, structure, properties, and applications
17. Phenolic foams: Foaming processes and applications
18. Phenolic foams: Structure-property relationships and insulating properties
19. Phenolic aerogels: Preparation, properties, and applications
20. Phenolic foams reinforced with nanomaterials: Preparation, properties, and applications
21. Melamine-formaldehyde hydrogels, foams, and aerogels: Preparation, properties and applications
22. Urea formaldehyde foams, aerogels and hydrogels: Preparation, properties and applications
23. Carbon foams derived from thermosetting polymers: Preparation, properties and applications
24. Carbon foams derived from phenol and melamine formaldehyde thermosetting polymers: Preparation, properties, and applications
25. Carbon foams derived from thermosetting epoxy, polyimides and cellulosic polymers: Environmental and electrical or electrochemical applications
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
