|Statement||N.A.J. Platzer, editor.|
|Series||Advances in chemistry series -- 128|
|Contributions||Platzer, Norbert A. J., American Chemical Society. Division of Industrial and Engineering Chemistry., American Chemical Society. Division of Polymer Chemistry.|
I thought you might be interested in this item at Title: Polymerization kinetics and technology. Author: Norbert A J Platzer; American Chemical Society. Division of Industrial and Engineering Chemistry; American Chemical Society. Division of Polymer Chemistry Publisher: Washington, American Chemical Society, This text book focuses on fundamental aspects of polymerization reaction engineering. In the development of a polymerization process the type of reactor and its mode of operation are key factors, which not only affect reactor performance and safety, but also to a large extend the quality of the polymeric product. About this book. This volume from the successful Macromolecular Symposia series presents the contributions from the IUPAC-sponsored International Symposium on "Radical Polymerization: Kinetics and Mechanism", held in Il Ciocco, Italy, in September, This was the fourth within the series of so-called SML conferences, which are the major scientific forum for addressing kinetic and mechanistic aspects of free-radical polymerization . Polymer science and technology / Joel R. Fried.—Third edition. pages cm Includes bibliographical references and index. ISBN (hardcover: alk. paper) 1. Polymers. 2. Polymerization. I. Title. QDF73 —dc23 Copyright © .
Purchase Mechanism and Kinetics of Addition Polymerizations, Volume 31 - 1st Edition. Print Book & E-Book. ISBN , Polymer Reaction Engineering. Jose Asua. Wiley, Sep 4, - Technology & Engineering - pages. 1 Review. Polymers are an example of "products-by-process", where the 5/5(1). Polymer Reaction Engineering. Editor (s): José M. Asua. First published: 1 January Print ISBN: | Online ISBN: | DOI: / Copyright © Blackwell Publishing Ltd. Description; Chapters; Supplementary; Over the last twenty years, the field of the chemistry of polymerization witnessed enormous growth through the development of new concepts, catalysts, processes etc. Examples are: non classical living polymerizations (group transfer polymerization, living carbocationic polymerization, living radical polymerization and living ring-opening metathesis.
Book Description. Heterophase polymerization is a century-old technology with a wide range of relevant industrial applications, including coatings, adhesives, rubbers, and many other specialized biomedical and high-performance materials. However, due to its multiscale complexity, it still remains a challenging research topic. Polymer Science and Technology emphasizes the basic, qualitative understanding of the concepts rather than rote memorization or detailed mathematical analysis. Since the book focuses on the ultimate property of the finished product, it minimizes laborious descriptions of experimental procedures used for the characterization of polymers. The fast polymerization kinetics under physiological conditions, the chemical versatility, and the spatial and temporal control has led to photopolymerization becoming an important processing method for the fabrication of biomaterials. In this chapter, we discuss the basics of photopolymerization reactions, specific polymer systems that are photopolymerized, the characterization of photopolymerization . The kinetics and mechanism of living radical polymerization are detailed. This chapter also discusses atom transfer radical polymerization, reversible chain transfer, living radical copolymerization, end-functional polymers, block polymers, star polymers and graft copolymers, and polymer brushes.