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This handbook collects over 800 infrared spectra of rubbers, plastics and thermoplastics elastometers. It contains five different libraries: rubbers in transmission spectroscopy, rubbers in pyrolysate spectroscopy, plastics in transmission spectroscopy, plastics in pyrolysate spectroscopy, and rubbers and plastics in single-bounce ATR spectroscopy. This is an invaluable reference for the rubbers and plastics industry.
For the 3rd Edition of this popular, authoritative and respected book, the collection has been completely revised and enlarged, with the addition of around 200 new spectra bringing the total number in the library to around 800. A number of improvements in the layout and design of the collection have been made. Some of these, such as a simpler classification system, clearer headings for the spectra, and the insertion of material indexes at the end of each section have been designed to make the library quicker and easier to use. It is also the case that, whereas the previous two editions were comprised of only four separate sub-libraries, covering the transmission and pyrolysate spectra of both rubber and plastic materials, another major improvement for this edition has been the incorporation of an additional, comprehensive library produced using a single bounce attenuated total reflectance (ATR) accessory. This is a very useful development, as since the publication of the second edition of this library in 1997, this type of ATR technique has acquired a high degree of popularity due to its many attributes, including speed and ease of use, the need for only small amounts of sample, and its virtually non-destructive nature. All the spectra in the collection have been collected and stored at a resolution of 4 cm-1 and are plotted as percentage transmittance against wavenumber. For the transmission and pyrolyate spectra, the wavenumber range shown is 400 to 4000 cm-1, whereas for the single bounce, diamond window ATR spectra the range is 650 to 4000 cm-1. The layout of the spectra has been changed for this edition - within each of the five sub-libraries spectra are listed in alphabetical order according to material type, which is displayed in the main heading above each spectrum. A number of polymer blends are represented in these sub-libraries, and the proportions of the polymers in the blend is also shown in this main heading. There is also a secondary heading for each spectrum, where as much additional information as possible has been provided, e.g., the trade name of the material, its manufacturer, compositional information, (e.g., fillers present), and the method of preparing the sample, (e.g., film cast from chloroform) for the recording of the spectrum. As mentioned above, transmission, pyrolysate and ATR spectra are all present in the library. Two different approaches were used to produce the sample films that were used for the recording of the transmission spectra: hot pressing, and casting from a polymer solution. The pyrolysate spectra of the polymers were recorded from collected pyrolysis condensates. Where necessary, samples for pyrolysate work were cleaned up by an initial solvent extraction step. The spectra for the ATR part of the library were recorded using a single bounce, diamond window ATR accessory. This library represents one of the most comprehensive, independent collections of infrared spectra that are commercially available. Drawing on Rapra's international reputation as a centre of excellence and compiled by polymer analysts for polymer analysts it has proved, since the first edition appeared in 1992, to be of immense value to users from both academia and industry. The many improvements in this edition, particularly the inclusion of an ATR section and the enlargement of the range of polymer blends that are covered, will ensure that this library continues to be a must have acquisition for all those concerned with the analysis of polymers and polymer systems.
Handbook of Thermoplastic Elastomers, Second Edition presents a comprehensive working knowledge of thermoplastic elastomers (TPEs), providing an essential introduction for those learning the basics, but also detailed engineering data and best practice guidance for those already involved in polymerization, processing, and part manufacture. TPEs use short, cost-effective production cycles, with reduced energy consumption compared to other polymers, and are used in a range of industries including automotive, medical, construction and many more. This handbook provides all the practical information engineers need to successfully utilize this material group in their products, as well as the required knowledge to thoroughly ground themselves in the fundamental chemistry of TPEs. The data tables included in this book assist engineers and scientists in both selecting and processing the materials for a given product or application. In the second edition of this handbook, all chapters have been reviewed and updated. New polymers and applications have been added — particularly in the growing automotive and medical fields — and changes in chemistry and processing technology are covered. - Provides essential knowledge of the chemistry, processing, properties, and applications for both new and established technical professionals in any industry utilizing TPEs - Datasheets provide "at-a-glance" processing and technical information for a wide range of commercial TPEs and compounds, saving readers the need to contact suppliers - Includes data on additional materials and applications, particularly in automotive and medical industries
Rubber analysis plays a vital part in ensuring that manufactured products are fit for purpose. This comprehensive, application-based book with up-to-date referencing covers all important applications and subject area associated with the analysis of rubber compounds and rubber products. Includes characterization of rubber polymers, rubber fumes, identification of extractables and leachables, as well as reverse engineering on compounded products.
Vibrational spectroscopy is advantageous as an analytical tool for polymers and comprises two complementary techniques: infrared (IR) and Raman spectroscopy. This report is an absorbing overview of how these methods can be employed to provide information about complex polymeric macromolecules with respect to composition, structure, conformation and intermolecular interactions. The review is supported by several hundred abstracts selected from the Polymer Library giving useful references for further reading.
Quite a few excellent books about vibrational spectroscopy have already been published. So why write a new one? The last years have seen the birth of new techniques and, first of all, a wealth of new applications. Therefore, a lot of new users need an introduction to these techniques and applications, but, if they are new to vibrational spectroscopy, an introduction to the parent techniques as well. Vibrational spectroscopies can detect and analyze vibrations in molecules. Mainly two different forms are used today: Infrared and Raman spectroscopy. Vibrational spectroscopy is used by chemists to characterize their substances. If the spectra of substances are known, analytical chemists can use them to analyze a mixture of chemicals. Samples may be analyzed even with spatial resolution, on the microscopic as well as on the macroscopic scale. "Infrared and Raman Spectroscopy" is intended for researchers or lecturers in Chemistry, Physics, Materials Science and Life Sciences, who are interested in the composition and properties of their samples. It describes how vibrational spectroscopy will enable them to examine thin layers, surfaces and interfaces, and also improve their knowledge about the properties of composites. Special chapters introduce VCD, ROA, and TERS. The book can serve as a short introduction to vibrational spectroscopy too, so that students at the first graduate level will benefit from it as well.
This book covers the history, theory, and practice of bonding elastomers to solid substrates. It provides information of methods, equipment, and bond evaluation. Numerous detailed examples of research into the variables that affect bonding, bond strength, and bond durability are provided to give the reader deeper understanding of this technology.
Elastomeric optics exploit light transparent, variable translucent, and reflective stretchable polymers to create novel strain-tunable optical elements and flexible multifunctional optical sheets. Optical sheets are thin, large-area polymer light guide structures that can be used to create a wide variety of passive light harvesting and illumination systems. The book introduces the theoretical principles of elastomeric optics and explores how simple and complex mechanically deformable optical devices can be designed and fabricated. The transmission of light through these optical components or waveguides depends on the selected materials, surface interface, geometric design, optical coupling of embedded micro-structures, and degree of device deformation. In addition to providing a technical foundation for building adaptable optics, the book seeks to inspire the next generation of scientists and engineers to develop innovative solutions far beyond anything imagined today.
This industrially relevant resource covers all established and emerging analytical methods for the deformulation of polymeric materials, with emphasis on the non-polymeric components. Each technique is evaluated on its technical and industrial merits. Emphasis is on understanding (principles and characteristics) and industrial applicability. Extensively illustrated throughout with over 200 figures, 400 tables, and 3,000 references.
This international two-day conference is now firmly established as Europe's premier meeting place for the thermoplastics elastomers sector. The last three events which were held in London, Amsterdam and Brussels each brought together more than 200 key players involved in all stages of the TPEs supply chain. The TPE 2002 conference, held in Brussels on the 24th and 25th of June 2002, featured expert presentations on key market trends, new application developments and the very latest material innovations.