Functional Fillers: Chemical Composition, Morphology, Performance, Applications demonstrates the applications of fillers, their chemical composition or modification, and morphological features. The book includes two sections, with the first part covering classic fillers, analyzing the current modifications in relation to composition and morphology, and enabling enhancements in properties and applications. The second part presents the new generation of fillers, which are providing designers with exceptional properties not previously available with classic fillers used in industry. This book supports engineers, researchers and technicians working with fillers, and will be of great interest to professionals working across the chemical, pharmaceutical, medicinal and electronics industries.
- Provides up-to-date, applicable information on the use of functional fillers
- Focuses on chemical modifications, enhanced density, particle size, mixtures of fillers, special properties, and fillers from renewable sources
- Covers classic fillers and new generation fillers
1. Classic fillers 2. New generation fillers 3. Layered double hydroxides 4. Molecular (e.g., silsesquioxanes) 5. Functionalized 6. Encapsulated 7. Superlight 8. Dense 9. Nano 10. Carbon dots 11. Hybrid (e.g., halloysite/silica, montmorillonite/carbon nanotubes, expanded graphite/carbon nanotubes, or metal/diatomaceous earth) 13. Magnetic 14. Magnetodielectric (e.g., barium hexaferrite) 15. Piezoresistive 16. Insulating/conductive mixtures 17. Conductive (e.g., e-ink) 18. High aspect ratio 19. Nanowires 20. Osteoconductive and other bone tissue engineering fillers 21. Biofillers (e.g., nanocellulose) 22. Antimicrobial (e.g., bioactive hybrid, functionalized halloysite, surface pre-reacted)
A cutting-edge guide to fillers, enabling the development of high pelóS