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Reverse Engineering of Rubber Products by Saikat Das Gupta,Rabindra Mukhopadhyay,Krishna C. Baranwal,Anil K. Bhowmick Pdf
Reverse engineering is widely practiced in the rubber industry. Companies routinely analyze competitors' products to gather information about specifications or compositions. In a competitive market, introducing new products with better features and at a faster pace is critical for any manufacturer. Reverse Engineering of Rubber Products: Concepts,
Rubber Products Manufacturing Technology by AnilK. Bhowmick Pdf
Provides authoritative coverage of compounding, mixing, calendering, extrusion, vulcanization, rubber bonding, computer-aided design and manufacturing, automation and control using microprocessors, just-in-time technology and rubber plant waste disposal.
Author : Martin J. Forrest Publisher : Walter de Gruyter GmbH & Co KG Page : 358 pages File Size : 47,9 Mb Release : 2019-04-01 Category : Technology & Engineering ISBN : 9783110640281
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.
ENGINEERING WITH RUBBER Edited by WALTER K. BURTON 1919 FRONTISPIECE. Typical of rubbers diversified industrial application is this Torsilastic rubber spring, which can be engineered to serve as the suspension member for thou sands of industrial, commercial, and automotive uses including stationary motors, industrial trucks, office chairs, railroad coaches, passenger cars, trucks, buses, airplane landing gear, farm implements, drilling equipment, seats of all types, door hinges and springs, streetcars, motorcycles, physical-exercising equipment, truck tail gates, wagons, bicycles, and even built-in ironing boards and rocking chairs. Copyright, 1949, All rights reserved. This hook, or parts thereof, may not be reproduced in any form without permission of the publishers PREFACE When man sots out to build and market a new product a machine for removing dents from automobile fenders, for example he may decide that some rubber parts are needed. He finds it necessary, therefore, to know some of the engineering, application, and design principles involving rubber hose, gaskets, and molded pieces of rubber. In looking about for information, he can pick up a helpful fact here and there from manufacturers pamphlets, folders, and booklets but sometimes he gets lost in a maze of words and pictures. Perhaps he consults the engineering department of some rubber manufacturer but, more likely than not, he goes ahead with his designing, making what he thinks are the proper provisions for whatever rubber parts he expects to include. Then, much too late, he establishes contact with rubber technicians and learns that he will have to make radical changes in design in order to take advantage of theirrecommendations. To help eliminate this confusion, the editor collaborated with The B. F. Goodrich Company, Akron, Ohio, to gather material for a book dealing with industrial rubber products and their application to industrial uses. This volume is the result. It summarizes, in convenient form, much of the miscellaneous information that was scattered through countless folders, booklets, catalogue pages, price sheet - s, and the minds of technicians. It provides basic information to start the reader on the right track and to induce him, if he happens to be a product designer, to consult with rubber men in the early blueprint stage of a new product. In order to obtain a clear idea of what design engineers and others would like to see in such a volume, an extensive mail survey was conducted and manufacturers were visited personally. Many of the ideas and suggestions that they contributed have been included in this text. The book deals with specific subjects, such as kinds of rubber and their properties, adhesives, latex products, belting, hose, molded and extruded parts, coverings and linings, gaskets, sponge rubber, hard rubber, and rubber mountings. The more important American-made rubbers, formerly classed as synthetic rubber, are included, as are some non rubber materials such as plasticized polyvinyl chloride. The book contains basic information on physical and chemical proper vi Preface ties of various rubber compounds, structural details of industrial rubber products, and typical dimensions. Because of the continuous, rapid growth of rubber science and engineering, many of the precise values in this book may be subject to modification from time to time. It might seem that such a bookwould make it less necessary for the potential user of industrial rubber to consult a rubber technician or manufacturer for assistance in planning a new product or application...
Reverse Engineering of Rubber Products by Saikat Das Gupta,Rabindra Mukhopadhyay,Krishna C. Baranwal,Anil K. Bhowmick Pdf
Reverse engineering is widely practiced in the rubber industry. Companies routinely analyze competitors� products to gather information about specifications or compositions. In a competitive market, introducing new products with better features and at a faster pace is critical for any manufacturer. Reverse Engineering of Rubber Products: Concepts, Tools, and Techniques explains the principles and science behind rubber formulation development by reverse engineering methods. The book describes the tools and analytical techniques used to discover which materials and processes were used to produce a particular vulcanized rubber compound from a combination of raw rubber, chemicals, and pigments. A Compendium of Chemical, Analytical, and Physical Test Methods Organized into five chapters, the book first reviews the construction of compounding ingredients and formulations, from elastomers, fillers, and protective agents to vulcanizing chemicals and processing aids. It then discusses chemical and analytical methods, including infrared spectroscopy, thermal analysis, chromatography, and microscopy. It also examines physical test methods for visco-elastic behavior, heat aging, hardness, and other features. A chapter presents important reverse engineering concepts. In addition, the book includes a wide variety of case studies of formula reconstruction, covering large products such as tires and belts as well as smaller products like seals and hoses. Get Practical Insights on Reverse Engineering from the Book�s Case Studies Combining scientific principles and practical advice, this book brings together helpful insights on reverse engineering in the rubber industry. It is an invaluable reference for scientists, engineers, and researchers who want to produce comparative benchmark information, discover formulations used throughout the industry, improve product performance, and shorten the product development cycle.
Rubber Engineering by Indian Rubber Institute (iri) Pdf
This reference to rubber engineering begins with fundamental concepts and gradually guides the reader to more complex concepts and issues which arise in the field of rubber engineering.
Analyzing Friction in the Design of Rubber Products and Their Paired Surfaces by Robert Horigan Smith Pdf
Taking a mechanistic approach that emphasizes the physical behavior of rubber as it slides, Analyzing Friction in the Design of Rubber Products and Their Paired Surfaces integrates the engineering and scientific evidence demonstrating that the laws of metallic friction do not apply to rubber. The book also presents a newly developed, scienti
An Introduction to Rubber Technology by Andrew Ciesielski Pdf
Rapra Technology is the leading independent international organisation with over 80 years of experience providing technology, information and consultancy on all aspects of rubbers and plastics. The company has extensive processing, analytical and testing laboratory facilities and expertise, and produces a range of engineering and data management software products, and computerised knowledge-based systems. Rapra also publishes books, technical journals, reports, technological and business surveys, conference proceedings and trade directories. These publishing activities are supported by an Information Centre which maintains and develops the world's most comprehensive database of commercial and technical information on rubbers and plastics. Book jacket.
Rubber Products describes cost-effective and environmentally friendly technologies in the field of rubber. The book covers rubber compounding, innovations in rubber-based products, devulcanisation of cured rubber and provides lean management techniques. It explains the commercial advantages of graphene-rubber nanocomposites, details the morphology of most common reinforcing carbon blacks and explores innovative applications of rubber in automotive and Defence sectors. The title is also discussing potential alternative technologies which could disrupt the rubber industry in the future. All chapters are written by prominent rubber scientists from both the industry and academia.
This book provides the beginning engineer with the principles of rubber science and technology: what rubber is, how it behaves, and how to design engineering components with rubber.
Chemistry, Manufacture and Applications of Natural Rubber by Shinzo Kohjiya,Yuko Ikeda Pdf
Chemistry, Manufacture and Applications of Natural Rubber, Second Edition presents the latest advances in the processing, properties and advanced applications of natural rubber (NR), drawing on state-of-the-art research in the field. Chapters cover manufacturing, processing and properties of natural rubber, describing biosynthesis, vulcanization for improved performance, strain-induced crystallization, self-reinforcement, rheology and mechanochemistry for processing, computer simulation of properties, scattering techniques and stabilizing agents. Applications covered include natural rubber, carbon allotropes, eco-friendly soft bio-composites using NR matrices and marine products, the use of NR for high functionality such as shape memory, NR for the tire industry, and natural rubber latex with advanced applications. This is an essential resource for academic researchers, scientists and (post)graduate students in rubber science, polymer science, materials science and engineering, and chemistry. In industry, this book enables professionals, R&D, and producers across the natural rubber, tire, rubber and elastomer industries, as well as across industries looking to use natural rubber products, to understand and utilize natural rubber for cutting-edge applications. Explains the latest manufacture and processing techniques for natural rubber (NR) with enhanced properties Explores novel applications of natural rubber across a range of industries, including current and potential uses Discusses resources and utilization, and considers sustainable future development of natural rubber
Rubber components are used in many demanding applications, from tyres and seals to gloves and medical devices, and failure can be catastrophic. This review of Rubber Product Failure outlines and illustrates the common causes of failure, while addressing ways of avoiding it. There has been increasing pressure to improve performance so that rubbers can be used at higher temperatures and in harsher environments. For example, the under-the-bonnet temperature has increased in some vehicles and new medical devices require longer lifetimes in potentially degrading biological fluids. The expectations of tyre performance in particular are increasing, and retreads have been in the spotlight for failures. The definition of failure depends on the application. For example, a racing car engine seal that lasts for one race may be acceptable, but in a normal car a life span of 10 years is more reasonable. If appearance is critical as in surface coatings and paints, then discolouration is failure, whilst in seals leakage is not acceptable. Each rubber product must be fit for the use specified by the consumer. Failure analysis is critical to product improvement. the cause of the problem can be much harder to find. It can range from a design fault to poor material selection, to processing problems, to manufacturing errors such as poor dimensional tolerances, to poor installation, product abuse and unexpected service conditions. The rubber technologist must become a detective, gathering evidence, understanding the material type and using deductive reasoning. Testing and analysis of failed materials and components add to the information available for failure analysis. For example, stored aged tyres appeared superficially to be alright for use, but on drum testing small cracks grew more quickly than in new tyres leading to rapid failure in service. Quality control procedures such as product inspection, testing and material quality checks can help to reach 100 percent reliability. In critical applications such as electricians' gloves for high voltage working, gloves are inspected before each use, while engine seals may be routinely replaced before the expected lifetime to avoid problems. in the literature is not high. However, several reviews have been written on specific products and references can be found at the end of this review. Around 400 abstracts from papers in the Polymer Library are included with an index. Subjects covered include tyre wear and failure, seals, engine components, rubber bonding failure, rubber failure due to chloramine in water, tank treads, gloves and condoms, medical devices and EPDM roofing membranes.