Processing of Polymer-based Nanocomposites: Introduction
рд╕рд┐рддре░ 2018 ┬╖ Springer Series in Materials Science рдкреБрд╕реНрддрдХ 277 ┬╖ Springer
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Processing of polymer nanocomposites usually requires special attention since the resultant structureтАФmicro- and nano-level, is directly influenced by among other factors, polymer/nano-additive chemistry and the processing strategy. This book consolidates knowledge, from fundamental to product development, on polymer nanocomposites processing with special emphasis on the processing-structure-property-performance relationships in a wide range of polymer nanocomposites. Furthermore, this book focuses on emerging processing technologies such as electrospinning, which has very exciting applications ranging from medical to filtration. Additionally, the important role played by the nanoparticles in polymer blends structures has been illustrated in the current book, with special focus on fundamental aspects and properties of nanoparticles migration and interface crossing in immiscible polymer blend nanocomposites.
This book introduces readers to nanomaterials and polymer nanocomposites processing. After defining nanoparticles and polymer nanocomposites and discussing environmental aspects, the second chapter focuses on the synthesis and functionalization of nanomaterials with applications in polymers. A brief overview on nanoclay and nanoclay-containing polymer nanocomposites is provided in third chapter. The fourth chapter provides an overview of the polymer nanocomposites structural elucidation techniques, such as X-ray diffraction and scattering, microscopy and spectroscopy, rheology. The fifth chapter is dedicated to the polymer nanocomposites processing technologies, among which electrospinning, which has very exciting applications ranging from medical to filtration. The last chapter provides an overview on how melt-processing strategy impact structure and mechanical properties of polymer nanocomposites by taking polypropylene-clay nanocomposite as a model system. The book is useful to undergraduate and postgraduatestudents (polymer engineering, materials science & engineering, chemical & process engineering), as well as research & development personnel, engineers, and material scientists.
This book introduces readers to nanomaterials and polymer nanocomposites processing. After defining nanoparticles and polymer nanocomposites and discussing environmental aspects, the second chapter focuses on the synthesis and functionalization of nanomaterials with applications in polymers. A brief overview on nanoclay and nanoclay-containing polymer nanocomposites is provided in third chapter. The fourth chapter provides an overview of the polymer nanocomposites structural elucidation techniques, such as X-ray diffraction and scattering, microscopy and spectroscopy, rheology. The fifth chapter is dedicated to the polymer nanocomposites processing technologies, among which electrospinning, which has very exciting applications ranging from medical to filtration. The last chapter provides an overview on how melt-processing strategy impact structure and mechanical properties of polymer nanocomposites by taking polypropylene-clay nanocomposite as a model system. The book is useful to undergraduate and postgraduatestudents (polymer engineering, materials science & engineering, chemical & process engineering), as well as research & development personnel, engineers, and material scientists.
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Professor Suprakas Sinha Ray was born in 1973 in India and completed his PhD studies at the University of Calcutta in 2001, and then postdoctoral fellow at Toyota Technological Institute and Laval University studying the structure-property relationship in nanoclay-containing polymer nanocomposites. He started working on fundamental understanding to real applications of polymer-based nanostructured materials when he joined the CSIR as a group leader. These studies advanced and broadened when he appointed as a chief researcher (level II, highest SET position in CSIR) and director of the DST-CSIR National Centre for Nanostructured Materials and growing to the present time with postdoctoral fellows, students, collaborators and industrial partners worldwide. Currently, more than 80 researchers, engineers and technologists are working with him. Prof. Ray is one of the most active and highly cited authors (his articles have been cited more than 14700 times, google scholar, h factor 44, Google/Scopus, S.S.Ray, S. Sinha Ray, S. Sinha-Ray), in the field of soft-nanostructured materials and his work has been featured on various international journal cover pages on 14 different occasions. Recently, he has been rated as a Top 1% of most impactful and influential scientists (Chemistry, Materials Science and 22 Science disciplines) by Thomson Reuters Essential Science Indicators, 2014. In 2011, he also has been rated as a Top 50 high impact chemist in the world (Feb. 2011, Thomson Reuter, probably youngest researcher in this list, 1.2 mil Chemists). So far he has given more than 30 plenary/keynote/invited presentations in various international conferences and organized/co-organized a number of international conferences. Ray is the author of 2 books, 16 book chapters on various aspects of polymer-based nano-structured materials & their applications, and author and co-author of 250 articles (including 17 review articles) in high-impact international journals, 14 articles in peer-review international conference proceedings; 30 articles in national and international conference proceedings. He also has 4 patents and 7 new demonstrated technologies shared with colleagues, collaborators and industrial partners. His team also commercialized 16 different grades of polylactide nanocomposites. Over the last 10 years, 32 PhD/Master students graduated under his direct supervision. Currently, he is serving as an Associate Editor/Editorial Board member of the RSC Advances, Macromolecular Materials and Engineering, Applied Nanoscience, Journal of Nanoscience and Nanotechnology, International Journal of Plastic Films and Sheeting, Applied Nanoscience, Journal of Nanomaterials, and Heliyon.
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