Preparation, Processing, and Properties of Biopolymers and Biocomposites
portes grátis
Preparation, Processing, and Properties of Biopolymers and Biocomposites
Jawaid, Mohammad; Abu-Jdayil, Basim; Khiari, Ramzi; Singh, Balbir
Elsevier - Health Sciences Division
05/2026
560
Mole
Inglês
9780443333934
15 a 20 dias
Descrição não disponível.
1. Sources of extraction and purification techniques for biopolymers
2. Biopolymer sources: extraction and purification approaches
3. Processing techniques and applications for biopolymer blends and nanocomposites
4. Reinforcement techniques in natural fiber-based biopolymer composites
5. Preparation and properties of starch-based biopolymers modified with isocyanates
6. Processing and properties of biopolymer-based materials from polysaccharides especially cellulose
7. Processing and properties of multifunctional biopolymer-based foams and sponges
8. Biopolymer-based hydrogels as biodegradable formulations and their biomedical applications
9. Characterization, modeling, and production processes for biopolymers and biocomposites
10. Modeling and production of biocompatible biopolymers for the textile and nonwoven industry
11. Characterization of structural proteins as biopolymer materials and their potential applications
12. The mechanical properties of biopolymer-based composites
13. Rheological behavior and functional properties of biopolymers and their blends
14. The thermal properties of biopolymers and biopolymer composites
15. Biodegradability and sustainability of biopolymers and composites
16. The physical and chemical properties and surface modifications of biopolymers and biocomposite materials
17. Properties of biopolymer-based nanofibers and nanocomposites
2. Biopolymer sources: extraction and purification approaches
3. Processing techniques and applications for biopolymer blends and nanocomposites
4. Reinforcement techniques in natural fiber-based biopolymer composites
5. Preparation and properties of starch-based biopolymers modified with isocyanates
6. Processing and properties of biopolymer-based materials from polysaccharides especially cellulose
7. Processing and properties of multifunctional biopolymer-based foams and sponges
8. Biopolymer-based hydrogels as biodegradable formulations and their biomedical applications
9. Characterization, modeling, and production processes for biopolymers and biocomposites
10. Modeling and production of biocompatible biopolymers for the textile and nonwoven industry
11. Characterization of structural proteins as biopolymer materials and their potential applications
12. The mechanical properties of biopolymer-based composites
13. Rheological behavior and functional properties of biopolymers and their blends
14. The thermal properties of biopolymers and biopolymer composites
15. Biodegradability and sustainability of biopolymers and composites
16. The physical and chemical properties and surface modifications of biopolymers and biocomposite materials
17. Properties of biopolymer-based nanofibers and nanocomposites
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Animals; Applications; Biocomposites; Biodegradability; Biofoam; Biomedical application; Bioploymer; Biopolymer composites; Biopolymer hydrogels; Biopolymer materials; Biopolymers; Biopolymers composites; Biosources; Blends; Cellulose; Characterization; Composite materials; Drug delivery system; Drug delivery systems; Emulsification; Extraction; Films; Filtration; Flowability; Foam; Food packaging; Gelling; Green technology; Interface science; Isocyanate; Life cycle analysis (LCA); Materials application; Materials characterization; Materials science; Materials science engineering; Mechanical properties; Mechanical strength; Mixed protein forms; Modeling; Modification; Nanocellulose; Nanocomposites; Nanofibers; Nanomaterial; Nanotechnology; Natural fibers; Physical properties; Plants; Polymer; Polymer reinforcement; Polymers; Polysaccharides; Polyurethane; Polyurethanes; Potential applications; Purification; Quantification; Regenerative medicine; Reinforcement fibers; Renewable materials; Renewable resources; Rheology; Source; Specific industry; Starch; Stimuli-responsive materials; Structural proteins; Surface; Surface modification; Sustainability; Sustainability engineering; Sustainable development; Sustainable material; Sustainable materials; Techniques; Thermal conductivity; Thermal properties; Thermal stability; Tissue engineering; Vegetable oil
1. Sources of extraction and purification techniques for biopolymers
2. Biopolymer sources: extraction and purification approaches
3. Processing techniques and applications for biopolymer blends and nanocomposites
4. Reinforcement techniques in natural fiber-based biopolymer composites
5. Preparation and properties of starch-based biopolymers modified with isocyanates
6. Processing and properties of biopolymer-based materials from polysaccharides especially cellulose
7. Processing and properties of multifunctional biopolymer-based foams and sponges
8. Biopolymer-based hydrogels as biodegradable formulations and their biomedical applications
9. Characterization, modeling, and production processes for biopolymers and biocomposites
10. Modeling and production of biocompatible biopolymers for the textile and nonwoven industry
11. Characterization of structural proteins as biopolymer materials and their potential applications
12. The mechanical properties of biopolymer-based composites
13. Rheological behavior and functional properties of biopolymers and their blends
14. The thermal properties of biopolymers and biopolymer composites
15. Biodegradability and sustainability of biopolymers and composites
16. The physical and chemical properties and surface modifications of biopolymers and biocomposite materials
17. Properties of biopolymer-based nanofibers and nanocomposites
2. Biopolymer sources: extraction and purification approaches
3. Processing techniques and applications for biopolymer blends and nanocomposites
4. Reinforcement techniques in natural fiber-based biopolymer composites
5. Preparation and properties of starch-based biopolymers modified with isocyanates
6. Processing and properties of biopolymer-based materials from polysaccharides especially cellulose
7. Processing and properties of multifunctional biopolymer-based foams and sponges
8. Biopolymer-based hydrogels as biodegradable formulations and their biomedical applications
9. Characterization, modeling, and production processes for biopolymers and biocomposites
10. Modeling and production of biocompatible biopolymers for the textile and nonwoven industry
11. Characterization of structural proteins as biopolymer materials and their potential applications
12. The mechanical properties of biopolymer-based composites
13. Rheological behavior and functional properties of biopolymers and their blends
14. The thermal properties of biopolymers and biopolymer composites
15. Biodegradability and sustainability of biopolymers and composites
16. The physical and chemical properties and surface modifications of biopolymers and biocomposite materials
17. Properties of biopolymer-based nanofibers and nanocomposites
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Animals; Applications; Biocomposites; Biodegradability; Biofoam; Biomedical application; Bioploymer; Biopolymer composites; Biopolymer hydrogels; Biopolymer materials; Biopolymers; Biopolymers composites; Biosources; Blends; Cellulose; Characterization; Composite materials; Drug delivery system; Drug delivery systems; Emulsification; Extraction; Films; Filtration; Flowability; Foam; Food packaging; Gelling; Green technology; Interface science; Isocyanate; Life cycle analysis (LCA); Materials application; Materials characterization; Materials science; Materials science engineering; Mechanical properties; Mechanical strength; Mixed protein forms; Modeling; Modification; Nanocellulose; Nanocomposites; Nanofibers; Nanomaterial; Nanotechnology; Natural fibers; Physical properties; Plants; Polymer; Polymer reinforcement; Polymers; Polysaccharides; Polyurethane; Polyurethanes; Potential applications; Purification; Quantification; Regenerative medicine; Reinforcement fibers; Renewable materials; Renewable resources; Rheology; Source; Specific industry; Starch; Stimuli-responsive materials; Structural proteins; Surface; Surface modification; Sustainability; Sustainability engineering; Sustainable development; Sustainable material; Sustainable materials; Techniques; Thermal conductivity; Thermal properties; Thermal stability; Tissue engineering; Vegetable oil
