The role of external plasticisers is to increase the softness, flexibility and distensibility of polymer systems, particularly PVC. Additional effects such as the reduction of melt viscosity may be of prime importance in some cases. This report considers the whole subject of external plasticisers for polymers. An additional indexed section containing several hundred abstracts from the Rapra Polymer Library database provides useful references for further reading.
This book continues the tradition of the first two editions of the late W. S. Penn's original PVC Technology, and the extensively revised third (1971) edition prepared by myself and B. J. Lanham. In the present edition the original general format, and the arrange ment of chapters, have been largely preserved, but virtually nothing now remains of Penn's own text: a part of the contents is based on material from the 1971 TitowlLanham version (revised, updated and mainly rewritten): the rest is new, including, inter alia, several chapters specially contributed by experts from the plastics industry in the UK and Europe. The section listing international (ISO) and national (BS, ASTM and DIN) standards relevant to PVC, which was first intro duced (as Appendix 1) in the 1971 edition, proved a popularfeature: it has now been brought up to date and considerably extended. Two further appendices provide, respectively, comprehensive unit conver sion"tables (with additional information on some ofthe mostfrequently encountered units, and the SI units), and a list of many properties of interest in PVC materials, with definitions, typical numerical values, and references~to relevant standard test methods. For various reasons, work on this edition involved more than the usual quota of problems: I am truly grateful to the Publisher's Manag ing Editor, Mr G. B. Olley, for his understanding, patience, unfailing courtesy and friendly encouragement.
Das dreibandige Werk behandelt die Herstellung und Anwendung spezieller Gruppen von Polymeremulsionen. Dieser 1. Band beginnt mit einem Uberblick uber die Grundlagen der Polymerchemie, Prinzipien und Praxis der Emulsionspolymerisation sowie die resultierenden Latexmischungen und ihre Eigenschaften. Ausfuhrlich diskutiert wird die Formulierung von Klebstoffen auf Latexbasis.
The concisely presented information in this book is aimed at anyone whose work requires some knowledge of plasticisers. Industrial users and suppliers of plastic additives will find it most useful, but it will also be of value to researchers and students who wish to gain an appreciation of plasticisers in their industrial context.
The additive families are considered with an outline of the technical issues and the trends driving the markets. The main marketplaces for each additive type are discussed and the trends outlined. It contains an overview of the significant trends in the four largest plastics market sectors: packaging, construction, automotive and electrical and electronics. The report focuses on the important issues within Europe, with comment on the relevant trends in North America and Asia. The report provides discussion of the trends in material consumption and specific additive groups. It also includes brief company news and information for some of the leading additive suppliers.
The production of textile materials comprises a very large and complex global industry that utilises a diverse range of fibre types and creates a variety of textile products. As the great majority of such products are coloured, predominantly using aqueous dyeing processes, the coloration of textiles is a large-scale global business in which complex procedures are used to apply different types of dye to the various types of textile material. The development of such dyeing processes is the result of substantial research activity, undertaken over many decades, into the physico-chemical aspects of dye adsorption and the establishment of ‘dyeing theory’, which seeks to describe the mechanism by which dyes interact with textile fibres. Physico-Chemical Aspects of Textile Coloration provides a comprehensive treatment of the physical chemistry involved in the dyeing of the major types of natural, man-made and synthetic fibres with the principal types of dye. The book covers: fundamental aspects of the physical and chemical structure of both fibres and dyes, together with the structure and properties of water, in relation to dyeing; dyeing as an area of study as well as the terminology employed in dyeing technology and science; contemporary views of intermolecular forces and the nature of the interactions that can occur between dyes and fibres at a molecular level; fundamental principles involved in dyeing theory, as represented by the thermodynamics and kinetics of dye sorption; detailed accounts of the mechanism of dyeing that applies to cotton (and other cellulosic fibres), polyester, polyamide, wool, polyacrylonitrile and silk fibres; non-aqueous dyeing, as represented by the use of air, organic solvents and supercritical CO2 fluid as alternatives to water as application medium. The up-to-date text is supported by a large number of tables, figures and illustrations as well as footnotes and widespread use of references to published work. The book is essential reading for students, teachers, researchers and professionals involved in textile coloration.
Providing an overview of the nature, manufacture, structure, properties, processing and applications of commercially available plastics materials, this book includes chapters on material selection and special polymers.
This book originated from my Publisher's request for anew, concise account of PVC plastics in terms of their nature, properties, process ing, and applications. There is thus, inevitably, an extensive thematic overlap with my-still relatively recent-PVC Technology (4th edi tion), and I have drawn liberally on that source for a substantial amount of relevant basic material. However, the present book is by no means merely an abridgement of the earlier one: whilst indeed considerably shorter, it is not only comparable in scope and general coverage of the subject, but also contains much new information. I have made a point of again strongly featuring the numerous standards relevant-and in many cases cardinal-to the testing and characterisa tion of PVC materials and products, and to the evaluation of their properties and performance: these standards are an indispensable part of the technology of PVC plastics, and nobody concerned with any aspect of this complex subject should fail to recognise that fact. It is ever a pleasure to express appreciation and thanks where they are due. I am grateful to Dipl-Ing. H. E. Luben of Brabender OHG, Duisburg, FRG, not only for the up-to-date information he provided on Brabender equipment, but also most particularly for his exception ally friendly, helpful attitude in all our contacts, and for the trouble he took to make some illustrations and figures available in the form convenient for direct reproduction.
