5 edition of Macromolecular design of polymeric materials found in the catalog.
Includes bibliographical references and index.
|Statement||edited by Koichi Hatada, Tatsuki Kitayama, Otto Vogl.|
|Series||Plastics engineering ;, 40, Plastics engineering (Marcel Dekker, Inc.) ;, 40.|
|Contributions||Hatada, Koichi, 1934-, Kitayama, Tatsuki, 1952-, Vogl, Otto, 1927-|
|LC Classifications||TP1087 .M33 1997|
|The Physical Object|
|Pagination||xiii, 878 p. :|
|Number of Pages||878|
|LC Control Number||96047256|
Macromolecular Engineering. Impact Factor. Publishes research on macromolecular engineering of polymeric materials, including processing of polymeric systems and properties of these materials. Search in: Advanced search. Submit an article Books; Keep up to date. Register to receive personalised research and resources by email. Ring-Opening polymerization of cyclic sulfides and imines. Chapter 13 in 'Macromolecular Design of Polymeric Materials', K. Hatada, T. Kitayama, O. Vogl Eds, M.
Andriy Voronov is an Associate Professor in the Coatings and Polymeric Materials at North Dakota State University, Fargo, ND, USA. Before joining NDSU in November , he held a research position at the Institute of Particle Technology, University of Erlangen-Nuremberg in . The ability for a material to change properties in response to external stimuli is an attractive feature for numerous applications and as such stimuli responsive materials are gaining attention across many different fields. This book introduces the concepts of stimuli-responsiveness, including the fundamental materials properties required for design.
The 13th International Conference on “Advanced Polymers via Macromolecular Engineering” (APME ) will be held in the beautiful historic town, Stellenbosch in South Africa from 15 – 18 April APME will be the latest in a series of successful polymer meetings, the most recent of which were held in Ghent (Belgium) (), Yokohama [ ]. Macromolecular Design of Polymeric Materials, Cat# Home → Product → Macromolecular Design of Polymeric Materials, Cat# Select Size To View Price.
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Macromolecular Design of Polymeric Materials (Plastics Engineering) 1st Edition by Hatada (Author) ISBN ISBN Why is ISBN important. ISBN. This bar-code number lets you verify that you're getting exactly the right version or edition of a book.
Cited by: Providing a range of information on polymers and polymerization techniques, this text covers the gamut of polymer science from synthesis, structure and properties to function and applications.
It analyzes speciality polymers, including acrylics, fluoropolymers, polysiplanes, polyphosphazenes, and inorganic and conducting polymers. The book examines the stereochemistry of polymerization and the.
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MACROMOLECULAR DESIGN OF POLYMERIC MATERIALS Download Macromolecular Design Of Polymeric Materials ebook PDF or Read Online books in PDF, EPUB, and Mobi Format. Click Download or Read Online button to Macromolecular Design Of Polymeric Materials book. Macromolecular Design of Polymeric Materials (Plastics Engineering 40) by Hatada, editor and a great selection of related books, art and collectibles available now at Macromolecular Design of Polymeric Materials [Book Review] October ; IEEE Electrical Insulation Magazine 15(5) Book Review: Design Hydrology and Sedimentology for Small Catchments.
\"Generously illustrated and containing over bibliographic citations, Macromolecular Design of Polymeric Materials is an outstanding guide for polymer scientists; plastics engineers; materials scientists; professionals in the paint, ceramics, and optics industries; and upper-level undergraduate and graduate students in these disciplines.
Shea. Macromolecular Chemistry and New Polymeric Materials. Our main research interests are currently focused on the design, synthesis and characterization of novel tailor made macromolecules as well as on the development of sustainable, eco-efficient and competitive production methods of polymeric materials.
By utilizing modern polymer synthesis. This growing area, antimicrobial polymeric materials, has been lately highlighted in different reviews or books,, but they are only a fraction of this promising revolution.
Furthermore, the number of published articles has been increased over 20 times in the last decade, which gives the idea that the potential of antimicrobial. Cluster for Advanced Macromolecular Design School of Chemical Engineering UNSW Australia NSW Australia Telephone +61 2 Authorised by Director, Cluster for Advanced Macromolecular Design Provider Code: G ABN: 57 Polymeric materials - structure, properties, applications [Book Review] Macromolecular Design of Polymeric Materials [Book Review] October IEEE Electrical Insulation Magazine.
Macromolecular design of polymeric materials by, unknown edition, Share this book. Facebook. Twitter. Pinterest. Embed. Edit. Last edited by Clean Up Bot. Febru | History. An edition of Macromolecular design of polymeric materials () Macromolecular design of polymeric : Macromolecular engineering includes: rational design of the macromolecular structure including chain size, uniformity, topology, microstructure (sequencing and tacticity), composition and functionality; precise synthesis with high selectivity at reasonable cost, both in effort and environmental impact; assembly of macromolecules to supramolecular objects via controlled processing, including.
Porous polymeric materials offer a great versatility in most of the promising fields of applications. This article affords a critically selected overview of the recent synthetic strategies developed to design porous polymers and their potential applications in emerging areas of science and technology, such as analytical techniques, supported catalysis, controlled drug delivery, and so on.
This book is especially aimed for polymer chemists and material scientists and deals, in contrast to the competitive literature, with materials behavior under oxidative degradation and gives an indepth view on the principles of polymer stabilization with respect to the materials involved.
Nicola's main research focus is the molecular design and processing of polymeric materials for biomedical applications. We look forward to receiving his advice and support for the further development of the Macromolecular journals.
Genre/Form: Electronic books: Additional Physical Format: Print version: Macromolecular design of polymeric materials.
New York: M. Dekker, © The use of polymeric materials has expanded into all fields of our world, and likewise has the research and development expanded to these new applications and materials.
If you are a PMSE member with an interesting application and photo of polymeric materials, please contact the PMSE editor to have your image featured on the homepage. This book will provide a comprehensive overview on the green approach to the research and industrialization of plastic materials.
An effort will be made to offer to the reader a critical perspective concerning both oil-based plastics and novel bio-based and waste-derived polymer formulations. A special focus on bio-innovation in the area of organic materials will also be delivered. Stabilization of Polymeric Materials (Macromolecular Systems - Materials Approach) Softcover reprint of the original 1st ed.
Edition by Hans Zweifel (Author) › Visit Every polymer scientist, material technologist, or application engineer dealing with the design of the properties of plastics will benefit from this new by: Particular focus has recently been on utilizing these DCBs in polymeric materials.
Introduction of DCBs into a polymer material provides it with powerful properties including self‐healing, shape‐memory properties, increased toughness, and ability to relax stresses as well as to change from one macromolecular architecture to another.Reducing topological network defects to enhance elasticity in polymeric materials remains a grand challenge.
Efforts to control network topology, primarily focused on cross-linking junctions, continue to underperform compared to theoretical estimations from idealized networks using affine and phantom network theories. Here, artificial protein technology was adapted for the design of polymer.