Provides the latest authoritative research on the developments, technology, and applications of rubbery materials. Presents structures, manufacturing techniques, and processing details for natural and synthetic rubbers, rubber-blends, rubber composites, and thermoplastic elastomers. 80% revised and rewritten material covers major advances since publication of the previous edition.
From weather-proof tires and artificial hearts to the o-rings and valve seals that enable successful space exploration, rubber is an indispensable component of modern civilization. Stiff competition and stringent application requirements foster continuous challenges requiring manufacturers to fund ever-expanding research projects. However, this vas
Recycling of rubber materials is necessary from both an environmental and economic perspective. This book describes everything from the world market to the many novel technologies and processes developed for the re-use and recycling of our common rubber materials. Devulcanization, production of rubber crumbs, reprocessing and manufacture of new materials are thoroughly described and discussed.
Rubber Compounding: Chemistry and Applications describes the production, processing, and characteristics of a wide range of materials utilized in the modern tire and rubber industry, from natural to butyl rubber, carbon black, silica, silanes, and beyond. Containing contributions from leading specialists in the field, the text investigates the chem
In recent years there has been an increasing demand for fire retardant versions of a range of plastics. Such applications are fire retardancy in vehicles, aircraft, manned space vehicles, marine and industrial applications such as electronics and a wide range of applications in the building industry including roofing and interior walls. Also in domestic applications such as furniture, clothes, bedding, upholstery and electrical goods. Fire retardancy in polymers can be achieved by either of three ways. Firstly there are forms of polymers, such as polytetrafluoroethylene, which are intrinsically fire retardant. The second type are rendered fire retardant by the inclusion of a suitable additive in the formulation. These include additives based on bromine, antimony, nitrogen phosphorus and silicon. An essential requirement for fire retardant polymers used in enclosed spaces is that they do not release any toxic products upon combustion. In this respect antinomy containing additives are going out of favour due to the release of toxic antimony volatiles upon combustion. Thirdly, introduction of intumescence into polymers by the introduction of suitable compounds is being increasingly used as a means of imparting fire retardancy in polymers. There exists a plethora of methods used to assess fire retardancy in polymers. These are discussed and summarised in this book. The book will be of interest not only to working in industry but also to design engineers and producers in the polymer fabrication industries.
The Rubber Division of the American Chemical society was founded to promote the education, professional growth, and betterment of those individuals associated with the rubber and associated industries. In 2009, the 100th anniversary of the division will be marked. Over those ten decades, the elastomeric profession has undergone innovations, improvements, re-tooling, and re-thinking. The Rubber Mirror: Reflections of the Rubber Division's First 100 Years traces the history of the division and details how it became the forum for the many people who ultimately impacted the advances in the rubber industry. Started by twenty-eight rubber chemists in the early 1900s, the Rubber Division has grown substantially. Its story reflects how people of simple backgrounds, working together, have propelled advances in natural and synthetic rubber materials and applications, polymer engineering and manufacturing, thermoplastics research, and chemistry. The Rubber Mirror reveals the heart and spirit of individuals. Their chronicles are primary documents in the history of the Rubber Division.
