Search results for ""author jyotishkumar parameswaranpillai""

Introduction, history of fiber and ceramic filler-based polymer composites for biomedical applications.- Different types of ceramic fillers for polymer matrices with a special emphasis on biomedical applications.- Different types of fiber in polymer matrices for biomedical engineering.- Synthesis, properties, and characterization of fibrous filler.- Structure, properties, characterizations, and biocompatibility of ceramics.- Processing, characteristics and biocompatibility of ceramic filler-based polymer composites.- Silica-polymer composites for biomedical applications.- Glasses/glass-ceramics -polymer composites for biomedical applications.- Clay-polymer composites for biomedical applications.-  Hydroxyapatite ceramic-polymer composites for biomedical applications.- Ceramic fillers-based polymer gels for biomedical applications.- Fiber fillers-based polymer gels for biomedical applications.- Ceramic coatings for biomedical applic

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Polymer Crystallization Control the development of polymer crystals with this groundbreaking introduction Polymer crystallization is a crucial component of polymer development that impacts processing, applications, presentation, and more. Intervention in the polymer crystallization process, in the form of nanofilters, compatibilizers, and more, has the potential to improve optical and chemical properties, improve degrees of crystallinity, and increase the hardness of polymer composites. The myriad applications of crystalline polymers make this one of the most exciting and fast-growing fields in polymer research. Polymer Crystallization provides a comprehensive introduction to this field and its most important recent developments. It characterizes and analysis an expansive range of crystalline polymers and discusses possible mechanisms for influencing their crystallization processes to impact a variety of outcomes and applications. These applications include industries from food packaging to automotive parts to medical and aerospace materials. Polymer Crystallization readers will also find: Detailed treatment of polymer morphology, rheology, modeling, and more Thorough introduction to the fundamentals of polymer crystallization Discussion of environmental safety issues and avenues for future research Polymer Crystallization is a useful reference for materials scientists, polymer scientists, biomedical scientists, and advanced undergraduate and graduate students in these and related fields.

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This book provides a comprehensive collection of the latest information on nanomaterials and nanocomposites. It covers material synthesis, processing, structure characterization, properties and applications. It presents a coherent treatment of how composite properties depend on nanostructure, and covers cutting-edge topics like bionanocomposites for sustainable development. This book summarizes many developments in the field making it an ideal resource for researchers from industry, academia, government and private research institutions.

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State-of-the-art overview on bioepoxy polymers as well as their blends and composites -- covering all aspects from fundamentals to applications! Bioepoxy polymers is an emerging area and have attracted more and more attention due to their biodegradability and good thermo-mechanical performance. In recent years, research progress has been made in synthesis, processing, characterization, and applications of bioepoxy blends and composites. Bioepoxy polymers are very promising candidates to replace the traditional thermosetting nonbiodegradable polymers. Bio-Based Epoxy Polymers, Blends and Composites summaries recent research progress on bioepoxy polymers as well as their blends and composites. It covers aspects from synthesis, processing, various characterization techniques to broad spectrum of applications. It provides a correlation of physical properties with macro, micro and nanostructures of the materials. Moreover, research trends, future directions, and opportunities are also discussed. Attracts attention: Bioepoxy polymers are environmentally friendly and considered as a promising candidate to replace the traditional thermosetting nonbiodegradable polymers Highly application-oriented: Bioepoxy polymers can be used in a broad range of applications such as polymer foams, construction, aerospace, automobiles, self-healing systems One-stop reference: Covers all aspects of bioepoxy polymer, their blends and composites, such as synthesis, properties, processing, characterization and applications Broad audience: Attracts attention from both academia and industry

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Nanotechnology-Enhanced Food Packaging Timely overview of functional food packaging made with nanotechnology and nanomaterials In Nanotechnology-Enhanced Food Packaging, a distinguished group of researchers delivers a comprehensive and insightful introduction to the application of nanomaterials in food packaging. This edited volume covers recent innovations—as well as future perspectives—in the industry and offers a complete overview of different types of nanomaterials used in food packaging. The book also discusses the use of nanoparticles in the development of active and functional food packaging and the related environmental and toxicological aspects. Featuring one-of-a-kind contributions from leaders in the field, Nanotechnology-Enhanced Food Packaging provides real-world solutions to food packaging challenges and considers the legislative and economic implications of new technologies. Among the new developments in nanotechnology-enhanced food packaging covered by the book are: Thorough introduction to biopolymers in food packaging systems and nanostructures based on starch, their preparation, processing, and applications in packaging Comprehensive explorations of chitosan-based nanoparticles and their applications in the food industry Practical discussions of active packaging systems based on metal oxide nanoparticles and an overview of higher barrier packaging using nano-additives In-depth examinations of the characterization techniques for nanostructures in food packaging Perfect for materials scientists, food technologists, and polymer chemists, Nanotechnology-Enhanced Food Packaging also belongs on the bookshelves of plastics technologists and allied professionals in the food industry.

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Food Packaging: Advanced Materials, Technologies, and Innovations is a one-stop reference for packaging materials researchers working across various industries. With chapters written by leading international researchers from industry, academia, government, and private research institutions, this book offers a broad view of important developments in food packaging. Presents an extensive survey of food packaging materials and modern technologies Demonstrates the potential of various materials for use in demanding applications Discusses the use of polymers, composites, nanotechnology, hybrid materials, coatings, wood-based, and other materials in packaging Describes biodegradable packaging, antimicrobial studies, and environmental issues related to packaging materials Offers current status, trends, opportunities, and future directions Aimed at advanced students, research scholars, and professionals in food packaging development, this application-oriented book will help expand the reader’s knowledge of advanced materials and their use of innovation in food packaging.

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Natural Materials for Food Packaging Application Analyze the future of biodegradable food packaging with this cutting-edge overview Packaging plays an essential role in the production of food and its movement through the global supply chain. Food packaging has been a significant site of innovation recently, allowing consumers better access to natural and organic foods, extended shelf lives, and more. However, food packaging has become an increasingly serious environmental hazard, with the result that biodegradable food packaging has become a vital and growing area of research. Natural Materials for Food Packaging Application provides a thorough and detailed introduction to natural packaging and its applications in food transportation. Treating both recent innovations and prospective future developments, it provides readers with extensive insights into the current state of research in this field. The result is a volume designed to meet the aspirational needs of a sustainable food industry. Natural Materials for Food Packaging Application readers will also find: Detailed treatment of biodegradable packaging materials including thermo-plastic starch, polybutylene succinate, and more Discussion of subjects including chitosan-based food packaging films, clay-based packaging films, and more An authorial team with vast expertise in the field of biological polymer production Natural Materials for Food Packaging Applications is a useful reference for chemists, materials scientists, and food scientists, as well as for any industry professionals working in food distribution and the food supply chain.

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