InhaltsangabeSTATE OF THE ART - NANOMECHANICS Introduction NanoplateletReinforced Composites Exfoliation Adsorption In Situ Intercalative Polymerization Method Melt Intercalation NanofiberReinforced Composites Characterization of Polymer Nanocomposites Recent Advances in Polymer Nanocomposites Future Outlook SYNTHESIS, SURFACE MODIFICATION, AND CHARACTERIZATION OF NANOPARTICLES Introduction Synthesis and Modification of Nanoparticles Modification of Nanoparticles Preparation and Characterization of Polymer - Inorganic Nanocomposites Preparation of Polymer - Inorganic Nanocomposites Characterization of Polymer - Inorganic Nanocomposites Applications of Polymer - Inorganic Nanocomposites Application of Magnetic Fe3O4-Based Nanocomposites Applications of ZnO-Based Nanocomposites Applications of Magnetic Fluid THEORY AND SIMULATION IN NANOCOMPOSITES Introduction Analytical and Numerical Techniques Formation of Nanocomposites Mechanical Properties Mechanical Failure Thermal Properties Barrier Properties Rheological Properties Conclusions CHARACTERIZATION OF NANOCOMPOSITES BY SCATTERING METHODS Introduction XRay Diffraction and Scattering Neutron Scattering Light Scattering MECHANICAL VISCOELASTIC CHARACTERIZATION IN NANOCOMPOSITES Introduction Factors Affecting the Mechanical Behavior of Nanocomposites Micromechanical Models for Nanocomposites Mechanical Characterization of Nanocomposites under Static Loading Characterization by Dynamic Mechanical Thermal Analysis Mechanical Characterization by Means of Indentation Techniques Fracture Toughness Characterization of Nanocomposites Conclusions CHARACTERIZATION OF NANOCOMPOSITES BY OPTICAL ANALYSIS Introduction Influence of Nanoparticles on the Visual Aspect of Nanocomposites Characterization of Appearance Characterization by UV - Visible Spectrophotometry Characterization by Optical Microscopy CHARACTERIZATION OF MECHANICAL AND ELECTRICAL PROPERTIES OF NANOCOMPOSITES Introduction The Influence of the Molding Temperature on the Density of the Nanocomposite Samples Based on the Low-Density Polyethylene Experimental Study of the Temperature Dependence of the Permittivity of the Nanocomposite Materials Elastic and Viscous Properties of the Nanocomposite Films Based on the Low-Density Polyethylene Matrix Effect of the Nanoparticle Material Density on the Acoustic Parameters of Nanocomposites Based on the Low-Density Polyethylene Conclusions BARRIER PROPERTIES OF NANOCOMPOSITES Introduction Nanocomposites from Ceramic Oxides Nanocomposites from Nanotubes Layered Silicate Nanocomposites Composite Models of Permeation Techniques Used to Study the Permeability of Polymers and Nanocomposites Calculation of Breakthrough Time Applications Conclusions POLYMER NANOCOMPOSITES CHARACTERIZED BY THERMAL ANALYSIS TECHNIQUES Introduction Thermal Analysis Methods Dynamic Mechanical Thermal Analysis Thermal Mechanical Analysis Conclusions CARBON NANOTUBE-FILLED POLYMER COMPOSITES Introduction Processing Methods Novel Approaches Mechanical Properties of Composite Materials Basic Theory of Fiber-Reinforced Composite Materials Stress Transfer Efficiency in Composites Mechanical Properties: Selected Literature Data Electrical Properties of Composite Materials Electrical Properties: Selected Literature Data CNT Polymer Composite Applications APPLICATIONS OF POLYMER-BASED NANOCOMPOSITES Introduction Preparation of Polymer-Based Nanocomposites Applications of Nanocomposites Energy Conversion and Storage Capacity and Applications Biodegradability and Applications Conclusion and Outlook HEALTH HAZARDS AND RECYCLING AND LIFE CYCLE ASSESSMENT OF NANOMATERIALS AND THEIR COMPOSITES Introduction Health Hazards of Inorganic Nanoparticles Nanocomposite Life Cycles and Life Cycle Assessment Life Cycle Assessment of Nanoparticles an

Sabu Thomas is a Professor of Polymer Science and Engineering at Mahatma Gandhi University (India). He is a Fellow of the Royal Society of Chemistry and a Fellow of the New York Academy of Sciences. Thomas has published over 430 papers in peer reviewed journals on polymer composites, membrane separation, polymer blend and alloy, and polymer recycling research and has edited 17 books. He has supervised 60 doctoral students. Kuruvilla Joseph is a Professor of Chemistry at Indian Institute of Space Science and Technology (India). He has held a number of visiting research fellowships and has published over 50 papers on polymer composites and blends. S. K. Malhotra is Chief Design Engineer andHead of the Composites Technology Centre at the Indian Institute of Technology, Madras. He has published over 100 journal and proceedings papers on polymer and alumina?zirconia composites. Koichi Goda is a Professor of Mechanical Engineering at Yamaguchi University. His major scientific fields of interest are reliability and engineering analysis of composite materials and development and evaluation of environmentally friendly and other advanced composite materials. M. S. Sreekala is an Assistant Professor of Chemistry at Post Graduate Department of Chemistry, SreeSankara College, Kalady (India). She has published over 40 papers on polymer composites (including biodegradable and green composites) in peer reviewed journals and has held a number of Scientific Positions and Research Fellowships including those from the Humboldt Foundation, Germany, and Japan Society for Promotion of Science, Japan.

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