The Effect Of Long Term Thermal Exposure On Plastics And Elastomers

The Effect of Long Term Thermal Exposure on Plastics and Elastomers, Second Edition brings together a wide range of essential data on the effect of long-term thermal exposure on plastics and elastomers, enabling engineers to make optimal material choices and design decisions. This second edition has been thoroughly revised to include the latest data and materials. This highly valuable handbook will support engineers, product designers, R&D professionals, and scientists who are working on plastics products or parts for high temperature environments across a range of industries. This readily available data will make it easy for practitioners to learn about plastic materials and their long- term thermal exposure without having to search the general literature or depend on suppliers. This book will also be of interest to researchers and advanced students in plastics engineering, polymer processing, coatings, and materials science and engineering. Provides essential data and practical guidance for engineers and scientists working with plastics in high temperature environments Includes introductory chapters on the effect of heat aging and testing methods, providing the underpinning knowledge required to utilize the data Covers a wide range of commercial polymer classes that are updated to include the latest developments in plastics materials

Hollow Glass Microspheres for Plastics, Elastomers, and Adhesives Compounds brings together, for the first time, all of the practical and theoretical aspects of glass bubble manufacturing, including its properties, processing, and applications, as well as regulatory, environmental, and health and safety aspects. The book enables the reader to evaluate the applicability of glass bubbles to various applications involving polymers in thermoplastics, elastomers, liquid thermosets, and adhesives. It is an indispensible guide for material selection and improving sustainability of products. Related data sets and case studies complement the book, making it a reference book for plastics processors, product designers, and engineers working with plastics and elastomers, and anyone who wants to improve functionality and performance, make their products lighter, longer lasting, and stronger, all while reducing costs and material needs. Provides best practices for plastics and rubber processing with glass bubbles Synthesizes all of the practical and theoretical aspects of glass bubble manufacturing, including its properties, applications, and more Describes different end-use applications and how glass bubbles influence various properties, including mechanical, structural, thermal, and optical properties in these applications A one-stop reference book that also covers the regulatory and environmental aspects of this important additive

Fluoroelastomers Handbook: The Definitive User's Guide, Second Edition is a comprehensive reference on fluoroelastomer chemistry, processing technology, and applications. It is a must-have reference for materials scientists and engineers in the automotive, aerospace, chemical, chemical process, and power generation industries. Covering both physical and mechanical properties of fluoroelastomers, it is useful in addressing daily challenges in the use of these materials, as well as the challenges posed in long-term research and development programs. Since the publication of the previous edition in 2005, many new findings and developments in chemistry, technology, and applications of fluoroelastomers have taken place. This is the only book with updated information on the manufacturing process, cross-linking chemistry and the formulation of compounds, as well as mixing, processing, and curing methods. A fully revised chapter is included on applications and examples of fluoroelastomer compounds. Safety, hygiene, and disposal standards and guidelines have been updated, and a new chapter has been added to discuss new developments and current trends, helping engineers and materials scientists stay ahead of the curve. Presents the only definitive reference work on fluoroelastomer chemistry, processing technology, and applications Helps engineers and materials scientists with the day-to-day challenges of using fluoroelastomers, as well as long-term research and development programs Includes fully updated chapters on the chemistry, manufacture, and processing of fluoroelastomers, as well as information on properties, applications, disposal, and safety issues

The Effect of Radiation on Properties of Polymers examines the effects of radiation on plastics and elastomers. Polymers are required in products or parts for a range of cutting-edge applications that are exposed to radiation, in areas such as space, medicine, and radiation processing. This book focuses on the effects of radiation exposure within that environment, providing in-depth data coverage organized by category of polymer. Aspects such as radiation impact on mechanical and thermal properties, including glass transition and heat deflection temperatures, are described, demonstrating how changes in these properties affect the performance of plastic or elastomer parts. The effect of radiation on electrical properties is also included. Supporting introductory chapters explain the key concepts of radiation, including the physical, mechanical, and thermal properties of plastics and elastomers. This is a vital resource for plastics engineers, product designers, and R&D professionals, working on products or parts for radioactive environments, as well as engineers and scientists in the medical, nuclear, and radiation processing industries. The book also supports researchers and scientists in plastics engineering, polymer processing and properties, polymer and coatings chemistry, materials science, and radiation. Brings together highly valuable data on the effect of radiation on the properties of polymers and elastomers Enables the reader to compare properties and to select the best possible materials for specific applications Supported by detailed explanations and analysis, ensuring that the reader understands how to interpret and utilize the data

Designing Successful Products with Plastics: Fundamentals of Plastic Part Design provides expert insight into design considerations required to bring a concept product or part through design and ready-for-production. The book shows how integrating four key choices—materials, processes, tooling and design—in every design decision allows the designer to fully vet and optimize the design. Rather than focusing on design rules and engineering equations used during product development, the emphasis of the book is on what the designer needs to consider during the early conceptual visualization stages, and in the detailed stages of the design process. This approach will bridge the gap between the industrial designer, tasked with the ‘big picture’ product design and use, and the part designer, tasked with the detailed plastic part design for manufacture. Useful to both experienced and novice designers, this book brings valuable design process information through specific examples, enabling designers and engineers in the plastics industry to effectively use the available technical information to successfully design and manufacture new products. Bridges the gap between the industrial designer working on product design and use, and the part designer working on detailed part design for manufacture Enables designers to establish a solid foundation for new product development on the ‘four pillars’ of the process: materials, processes, tooling, and design Provides a hierarchy and roadmap through creative product design and implementation, so engineers can translate a product from creative concept through to realization and commercialization

Applied Plastics Engineering Handbook: Processing, Materials, and Applications, Second Edition, covers both the polymer basics that are helpful to bring readers quickly up-to-speed if they are not familiar with a particular area of plastics processing and the recent developments that enable practitioners to discover which options best fit their requirements. New chapters added specifically cover polyamides, polyimides, and polyesters. Hot topics such as 3-D printing and smart plastics are also included, giving plastics engineers the information they need to take these embryonic technologies and deploy them in their own work. With the increasing demands for lightness and fuel economy in the automotive industry (not least due to CAFÉ standards), plastics will soon be used even further in vehicles. A new chapter has been added to cover the technology trends in this area, and the book has been substantially updated to reflect advancements in technology, regulations, and the commercialization of plastics in various areas. Recycling of plastics has been thoroughly revised to reflect ongoing developments in sustainability of plastics. Extrusion processing is constantly progressing, as have the elastomeric materials, fillers, and additives which are available. Throughout the book, the focus is on the engineering aspects of producing and using plastics. The properties of plastics are explained, along with techniques for testing, measuring, enhancing, and analyzing them. Practical introductions to both core topics and new developments make this work equally valuable for newly qualified plastics engineers seeking the practical rules-of-thumb they don't teach you in school and experienced practitioners evaluating new technologies or getting up-to-speed in a new field. Presents an authoritative source of practical advice for engineers, providing guidance from experts that will lead to cost savings and process improvements Ideal introduction for both new engineers and experienced practitioners entering a new field or evaluating a new technology Updated to include the latest technology, including 3D Printing, smart polymers, and thorough coverage of biopolymers and biodegradable plastics

Anticorrosive Rubber Lining discusses the state-of-the-art in this evolving industry, including sections on the best materials and formulations to use, what's best for a particular application, which repair technique is best for a given application, how long a rubber lining is likely to last, vulcanization parameters, and more. This book deals with the important field of anticorrosive rubber lining and its applications in various industries, including oil and gas, nuclear, aerospace, maritime, and many more, highlighting many of the technological aspects involved. The author offers a unique perspective due to the exclusiveness of the case histories presented, including many industrial rubber lining practices which are mostly kept within the industry. The technical information on rubber presented here is a practical tool to enable engineers to make the best use of rubber linings to prevent corrosion in chemical plants. The book includes valuable insights into bonding systems, surface preparation, and coating methodologies, and also covers failure analysis of failed systems. Includes up-to-date technical information on special compounding and processing technology of recently developed synthetic rubbers Provides detailed case studies from industry sectors, including aerospace, nuclear energy, and mining Presents rare, valuable insider knowledge of current industry practice

Plastics in Medical Devices for Cardiovascular Applications enables designers of new cardiovascular medical devices to make decisions about the kind of plastics that can go into the manufacture of their device by explaining the property requirements of various applications in this area, including artificial valves, lead insulation, balloons, vascular grafts, and more. Enables designers to improve device performance and remain compliant with regulations by selecting the best material for each application Presents a range of applications, including artificial valves, stents, and vascular grafts Explains which materials can be used for each application, and why each is appropriate, thus assisting in the design of better tools and processes