Sonstiges, Englisch, 402 Seiten, Format (B × H): 125 mm x 142 mm, Gewicht: 200 g
Sonstiges, Englisch, 402 Seiten, Format (B × H): 125 mm x 142 mm, Gewicht: 200 g
ISBN: 978-0-87849-170-4
Verlag: Trans Tech Publications
Nanocomposite materials are formed by mixing two or more dissimilar materials at the nanoscale in order to control and develop new and improved structures and properties. The properties of nanocomposites depend not only upon the individual components used but also upon the morphology and the interfacial characteristics. Nanocomposite coatings and materials are among the most exciting and fastest-growing areas of research; with new materials being continually developed which often exhibit novel properties that are absent in the constituent materials. Nanocomposite materials and coatings therefore offer enormous potential for new applications including: aerospace, automotive, electronics, biomedical implants, non-linear optics, mechanically reinforced lightweight materials, sensors, nano-wires, batteries, bioceramics, energy conversion and many others.
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1. Inroduction2. Classification of Nanostructured, Nanocomposite Tribological Coatings3. Background of Nanostructured Super-Hard Coatings4. New Directions for Nanostructured Super-Tough Coatings5. Other Possible Properties of Nanostructured Coatings6. New Processes for Industrial Applications of Multifunctional Tribological Coatings7. Case Studies: Preparation ? Microstructure ? Properties of Nanostructured Coatings8. Concluding Remarks. References.1. Introduction2. Morphological Characterization of Nanocomposite Materials3. Chemical Analysis of Nanocomposite Materials4. Summary. References1. Introduction2. Nanocomposites3. Hierarchical Nanocomposites4. Multiscale Hierarchical Nanocomposites5. Nanoresin-Based Multiscale Hierarchical Compound Nanocomposites6. ConclusionsReferences1. Introduction2. Fumed Silica3. Thermoplastic Polymeric Matrices4. Thermoset Polymeric Matrices5. BiocompositesReferences1. Introduction. 2. Classification.3. Design Methodology for Nanocomposite Coatings4. How to Enhance Coating Hardness and Toughness5. Deposition Techniques6. Microstructures of Hard and Tough Nanocomposite Coatings7. Characterization of Coating Hardness and Toughness8. Concluding RemarksReferences1.Introduction. 2.Erosion of Materials.3. Plasma Enhanced Magnetron Sputter Deposition4. Parametric Study of Nanocomposite Coatings Using the PEMS Process5. Discussion6. Concluding Remarks and Future OutlookReferences1. Introduction2. Solution-Based Methods3. Vapor-Based Methods4. Direct Oxidization5. Hybrid Nanowires6. Conclusions and Future OutlookReferences1.Introduction. 2.Zeolite-Like Inorganic-Organic Hybrids.3. Ship-in-a-Bottle Zeolites4. Mesoporous Silica with an Organic Surface5. Multi-Layered Nanoparticles6. Conclusions. References1. Introduction2. Metallic Nanolayers3. Ceramics NanolayersReferences
