Rubber Composites
portes grátis
Rubber Composites
Recycling, Processing, Properties, Design and Applications
Sapuan, S. M.; Ismail, Hanafi; Abd Murat, Noor Azammi; Mustafa, Nuzaimah
Elsevier - Health Sciences Division
12/2024
418
Mole
Inglês
9780443236204
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Part One: Manufacturing of Rubber Composites 1. Introduction to Rubber 2. Preparation and Properties of Halloysite Nanotube-Filled Epoxidized Natural Rubber 3. Surface Treatment and Processing of Thermoplastic Elastomer-Filled Natural Fillers Composites Part Two: Characterization of Rubber Composites 4. Ferrite-filled Rubber Composites: Characterization and Properties 5. Characterization and Properties of Sepiolite-Filled Natural Rubber Composites 6. Biodegradation Behavior of Polylactic Acid/Rubber/Kenaf Biocomposites Via Soil Burial Part Three: Performance of Rubber Composites 7. Enhancement of properties of Natural Rubber Composites with Cellulose Blends 8. Comparison of unfilled and filled natural rubber latex/unvulcanized silicone rubber/graphene nanoplatelet conductive material 9. The Effect of Coconut Shell Powder on the Mechanical Properties of Polylactic Acid/ Silicone Rubber Blend 10. The Influence of Coated-Carbon Nanofiber (CCNF) in Styrene-Butadiene Rubber (SBR) for Automotive Components Part Four: Modelling and design of Rubber Composites 11. Rubber Composites Design for High-Voltage Insulation in Electric Vehicles 12. Rubber Composites for Automotive Mounting Design Part Five: Applications of Rubber Composites 13. Application of Lignin in Rubber Composites and Future Trends 14. Nitrile Rubber-based Composites 15. Rubber Composites with Functional Natural Rubber/Carboxyl Group Blends Part Six: Recycling of Rubber Composites 16. Recycling Medical Rubber Waste: Developing New Fillers for Rubber Composites 17. Conclusion and Future Remarks
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Alkaline treatment; Analytical chemistry analysis; Biodegradable polymers; Biodegradation; Carbon Nanofiber; Carbon black; Carbon black/Kraft lignin reinforced NR/BR; Carboxyl group; Carboxyl-functionalized compound; Cellulose; Coating; Coating of filler; Compatibility; Composite; Composite Materials; Composite materials; Computational mechanics; Coupling agent; Crystal structure; Definition; Dynamic mechanical analysis; Elastomer; Electric vehicle; Elongation at break; Epoxidized natural rubber; Filler; High voltage; Kenaf fibre; Maleic anhydride; Materials Science; Materials application; Materials characterization; Materials processing; Materials property; Materials property type; Materials science; Materials science engineering; Materials structure; Materials' property type; Mechanical design; Mechanical failure; Microstructure; Mineralogy; NR/BR blend; Nanocellulose; Natural fillers; Natural resources; Natural rubber; Physical and mechanical properties; Polylactic acid; Polymer blend; Polymer composites material; Polymers; Processing techniques; Rubber; Rubber composite; Rubber composites; Rubber fillers; Rubber high-voltage insulator; Rubber recycling; Rubber waste; Rubber/lignin composites; SBR; Self-healing; Sepiolite; Side wall application; Silane coupling agent; Silane coupling agents; Silicone rubber; Spectroscopy; Structural engineering; Styrene-butadiene rubber; Surface treatments; Sustainability engineering; Sustainable development; Sustainable materials; Tensile properties; Tensile strength; Tensile test; Thermal stability; Thermoplastic elastomers; Thermoplastic polyurethane; Waste disposal; Waste ferrite; Waste management
Part One: Manufacturing of Rubber Composites 1. Introduction to Rubber 2. Preparation and Properties of Halloysite Nanotube-Filled Epoxidized Natural Rubber 3. Surface Treatment and Processing of Thermoplastic Elastomer-Filled Natural Fillers Composites Part Two: Characterization of Rubber Composites 4. Ferrite-filled Rubber Composites: Characterization and Properties 5. Characterization and Properties of Sepiolite-Filled Natural Rubber Composites 6. Biodegradation Behavior of Polylactic Acid/Rubber/Kenaf Biocomposites Via Soil Burial Part Three: Performance of Rubber Composites 7. Enhancement of properties of Natural Rubber Composites with Cellulose Blends 8. Comparison of unfilled and filled natural rubber latex/unvulcanized silicone rubber/graphene nanoplatelet conductive material 9. The Effect of Coconut Shell Powder on the Mechanical Properties of Polylactic Acid/ Silicone Rubber Blend 10. The Influence of Coated-Carbon Nanofiber (CCNF) in Styrene-Butadiene Rubber (SBR) for Automotive Components Part Four: Modelling and design of Rubber Composites 11. Rubber Composites Design for High-Voltage Insulation in Electric Vehicles 12. Rubber Composites for Automotive Mounting Design Part Five: Applications of Rubber Composites 13. Application of Lignin in Rubber Composites and Future Trends 14. Nitrile Rubber-based Composites 15. Rubber Composites with Functional Natural Rubber/Carboxyl Group Blends Part Six: Recycling of Rubber Composites 16. Recycling Medical Rubber Waste: Developing New Fillers for Rubber Composites 17. Conclusion and Future Remarks
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Alkaline treatment; Analytical chemistry analysis; Biodegradable polymers; Biodegradation; Carbon Nanofiber; Carbon black; Carbon black/Kraft lignin reinforced NR/BR; Carboxyl group; Carboxyl-functionalized compound; Cellulose; Coating; Coating of filler; Compatibility; Composite; Composite Materials; Composite materials; Computational mechanics; Coupling agent; Crystal structure; Definition; Dynamic mechanical analysis; Elastomer; Electric vehicle; Elongation at break; Epoxidized natural rubber; Filler; High voltage; Kenaf fibre; Maleic anhydride; Materials Science; Materials application; Materials characterization; Materials processing; Materials property; Materials property type; Materials science; Materials science engineering; Materials structure; Materials' property type; Mechanical design; Mechanical failure; Microstructure; Mineralogy; NR/BR blend; Nanocellulose; Natural fillers; Natural resources; Natural rubber; Physical and mechanical properties; Polylactic acid; Polymer blend; Polymer composites material; Polymers; Processing techniques; Rubber; Rubber composite; Rubber composites; Rubber fillers; Rubber high-voltage insulator; Rubber recycling; Rubber waste; Rubber/lignin composites; SBR; Self-healing; Sepiolite; Side wall application; Silane coupling agent; Silane coupling agents; Silicone rubber; Spectroscopy; Structural engineering; Styrene-butadiene rubber; Surface treatments; Sustainability engineering; Sustainable development; Sustainable materials; Tensile properties; Tensile strength; Tensile test; Thermal stability; Thermoplastic elastomers; Thermoplastic polyurethane; Waste disposal; Waste ferrite; Waste management
