Handbook of Modern Coating Technologies Applications and Development
Coordonnateurs : Aliofkhazraei Mahmood, Nasar Ali, Chipara Mircea, Bensaada Laidani Nadhira, De Hosson Jeff Th.M.
Handbook of Modern Coating Technologies: Application and Development reviews recent applications and developments of modern coating technologies. The topics in this volume consist of role of antibacterial coatings in the development of biomaterials, insights of technologies for self-healing organic coatings, sensor applications, application of carbon nanotubes?based coating in the field of art conservation, oxide-based self-cleaning and corrosion-protective coatings, protective coatings for wood, applications of optical coatings on spectral selective structures, application of natural antimicrobial coating for controlling foodborne pathogens on meat and fresh produce, efficacy of antimicrobial coating in reducing pathogens on meat, composite membrane: fabrication, characterization, and applications, development of nanostructured HVOF coatings on high strength steel components for turbine blades, nanoscale multilayered composite coating, applications of sol?gel coatings, application of graphene in protective coating industry, application of coatings in outdoor high-voltage installations, defects and doping effects in thin films of transparent and conductive oxides, and functional coatings for lab-on-a-chip systems based on phospholipid polymers.
1. The role of antibacterial coatings in the development of biomaterials
2. Insights of Technologies for Self-healing Organic Coatings
3. Sensor applications
4. The first Application of Carbon Nanotubes-based coating in the field of Art Conservation.
5. Oxide-based self-cleaning and corrosion protective coatings
6. PROTECTIVE COATINGS FOR WOOD
7. Application of optical coatings on wavelength division devices
8. Antibacterial coatings
9. Membrane Technology
10. Development of Nano- WC-CoCr HVOF Coatings on High Strength Steel Components for Turbine Blades
11. Multilayer composite coatings with nanoscale structure in technologies for the ...
12. Applications of Sol-Gel Coatings: Past, Present and Future
13. Application of Graphene in Protective Coating Industry: Prospects and Current Progress
14. Application of coatings in outdoor high voltage installations
15. Plasma synthesis processes and characterization of transition metal oxide thin films...
16. Functional Coatings for Lab-on-a-Chip Systems Based on Phospholipid Polymers
Surface scienstits and reserach students in the area of nano- coatings and their applications.Chemists, chemical engineers and material scientists as well as coating engineers in industry.
Nasar Ali’s research interests are focused on different coating materials, such as carbon and deposition methods (e.g. CVD, PVD), plasma assisted treatments and nanomaterials. Dr. Nasar Ali has published extensively with over 120 research publications in the field. Dr Ali serves on the editorial board of several nanotechnology related journals, such as Journal of Nanoscience and Nanotechnology, Journal of Nano Research etc. Furthermore, Dr Ali chairs some high profile international conferences such as NANOSMAT and MPA.
Mircea Chipara is Assistant Professor in the Department of Physics and Geology. The research of Dr. Chipara is focused on materials obtained by dispersing nanometer - sized particles with different physical properties (mechanical, optical, thermal, electrical, or magnetic) within polymeric matrices (nanocomposites). Such materials may exhibit multifunctional properties and may present smart capabilities. Due to their low weight and outstanding physical properties, nanocomposites have potential applications as space materials. The research of Dr. Chipara also includes a thorough investigation of the fundamental mechanisms and processes responsible for the degradation of polymers and polymer – based nanocomposites.
Nadhira Laidani is a Senior Scientist and Research Unit leader at the Center for Materials and Microsystems of FBK, Trento, Italy. She received her diploma of “Engineer in Petrochemistry from the National Institute of Hydrocarbons and Chemistry (INHC) of Algiers, Algeria, and her P
- Describes new methods, including plasma-based treatments
- Show properties and mechanisms that can be compared for the industrialization of new methods for specific components with desired properties
- Classifies methods, providing a better understanding of treatments and showing which treatments are possible replacements for conventional methods
- Includes new applications such as chromate plating
- Illustrates new methods and their ability to optimize properties
Date de parution : 03-2021
Ouvrage de 636 p.
19x23.3 cm
Thèmes de Handbook of Modern Coating Technologies :
Mots-clés :
2-Methacryloyloxyethyl phosphorylcholine (MPC); 3D-substrate; Abrasion-resistant; Absorber; Antibacterial; Antibacterial coating; Antimicrobial coatings; Antireflection; Application; Biocide; Biomaterial-related infection; Blue ray laser; Capacitive sensor; Carbon nanotubes; Cell; Coating; Coatings; Compatibility; Composite membrane; Corrosion; Corrosion resistant; Cultural heritage; Cutting fluid; DNA; Decorative; Defects; Deposition; Dip coating; Doping; Electrically insulating layer; Electroosmotic flow (EOF); Electrophoresis; Environmental impact; Environmentally friendly cutting system; Etching; Extrinsic; Flexible laser exposure; Food safety; Food-borne pathogens; Force sensor; Functional coatings; Gas separation; Glass; Graphene; HVOF; Heating mat; Hydrophobicity; Hydrophone; Icephobic; Inorganic coating; Insulators; Integrated filter; Intrinsic; Ionization of gas media; Lab-on-a-chip (LOC) microfluidics; Langmuir–Blodgett; Layer structuring; Maintenance; Meat and fresh produce; Microcapsules; Nanostructured coatings; Nanostructured multilayered composite coatings; Natural products; Optical coating; Organic coating; Outdoor high-voltage installations; Oxide; Oxygen vacancies; Photocatalysis; Photocatalytic; Piezoresistive sensor; Polydimethylsiloxane (PDMS); Position sensor; Positron annihilation spectroscopy; Pressure sensor; Protective wood coatings; Protein; RF sputtering; Room temperature vulcanized; Scratch-resistant; Self-cleaning; Self-healing; Self-healing coatings; Self-repairing; Silicone rubber; Sol–gel coatings; Spectral; Spectrometer; Spin coating; Steel; Superhydrophobic; Supramolecular self-healing; Surface modification of biomaterial; Surface protection; TCO; Temperature sensor; Thin film sensor; Turbine blade; UV protection; Visible light communications
