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Helps the individual without formal training in plastic materials through the maze of materials selection to his final goal. Those with a basic knowledge of this area will benefit from the more practical aspects of the guide.
Selection and Use of Engineering Materials provides an understanding of the basic principles of materials selection as practised in engineering manufacture and design with an overview of established materials usage. Emphasis is placed on identifying service requirements and how materials relate to those requirements, rather than listing materials and describing applications. This edition has been revised throughout and now includes coverage of the use of new materials in engineering, materials for bearings and tribological usage, and the use of materials in civil engineering structures. It has also been expanded to include more case studies and worked examples in order to provide tangible and interactive contact with the content matter. The book also contains a detailed consideration of the weldability of steels, the welding of plastics and adhesion. programmes. An example of this development is the inclusion of a chapter detailing the use of materials in automobile structures; a field in which the traditional use of steel is being displaced as the application of reinforced polymers becomes more widespread. The book also reflects the growing use of computerized databases and materials selection programmes. - Core subject area for all engineering and materials degrees - Complementary to Materials Selection in Mechanical Design (Ashby) - Includes case studies and worked examples
"Combines fundamental theory, systematic experimentation, disciplined research, and logical procedures to simplify the thermoplastic selection process as well as reduce production cost and time. Second Edition contains new features such as rheology property data, recycling in resin selection, and more and more."
While plastics are extremely useful materials for modern society, plastics production and waste generation continue to increase with worsening environmental impacts despite international, national and local policy responses, as well as industry commitments. The first of two reports, this Outlook intends to inform and support policy efforts to combat plastic leakage.
Today engineers, designers, buyers and all those who have to work with plastics face a dilemma. There has been a proliferation of test methods by which plastic properties are measured. The property data measured by these test methods are not identical and sometimes have large differences. How are engineers, designers, buyers going to decide the type and resin grade and their property data? Which are the valid test methods? The right plastic property data are the difference between success and failure of a design, thus making the property selection process critical. For the first time this book provides a simple and efficient approach to a highly complex and time consuming task. There are over 26,000 different grades of polymers and millions of parts and applications, further adding to the difficulty of the selection process.Selection of Polymeric Materials steers engineers and designers onto the right path to selecting the appropriate values for each plastic property. A large amount of property information has been provided to teach and assist the plastic part designer and others in selecting the right resin and properties for an application. Various standards including ASTM, ISO, UL, and British Specifications have been discussed to help the readers in making sound decisions - A simple and efficient approach to a highly complex and time consuming task - Allows engineers to select from various standards including ASTM, ISO, UL, and British Specification - Presents information on properties such as tensile strength, melt temperature, continuous service temperature, moisture exposure, specific gravity and flammability ratings - Tried and true values narrow myriad choices down quickly for readers
Now in its Third Edition, Plastics is the key text for senior students studying the science and engineering of plastic materials. Starting from microstructure and physical properties, the book covers the mechanical, chemical and electrical properties of plastic materials, and also deals in detail with wider plastics issues that today's engineers and materials scientists need such as manufacturing processes and the design of plastic products. The new edition has been updated to reflect changes in polymer technology and the plastics industry, and the increased knowledge of the mechanical properties of plastics. A new first chapter introduces plastics properties through practical exercises, to help students to see the relevance of more academic chapters. Computer modeling has revealed the mechanics of many types of composites, so the emphasis of chapter 4 has shifted to modeling. Applications, product design and process technology have moved on; consequently the case studies in chapter 14 were updated. A new chapter 15 introduces sport and biomaterials case studies, since increasing numbers of students are enrolled on courses with these emphases. The material has been thoroughly updated, and the principles of polymer structure-property relationships set out more clearly. - Meets latest undergraduate needs for studying polymer properties - Expended coverage of materials selection and shape selection - New teaching case studies plus new material on plastics for use in sport applications and biomaterials - Examination questions to accompany each chapter
Composite Materials: Concurrent Engineering Approach covers different aspects of concurrent engineering approaches in the development of composite products. It is an equally valuable reference for teachers, students, and industry sectors, including information and knowledge on concurrent engineering for composites that are gathered together in one comprehensive resource. - Contains information that is specially designed for concurrent engineering studies - Includes new topics on conceptual design in the context of concurrent engineering for composites - Presents new topics on composite materials selection in the context of concurrent engineering for composites - Written by an expert in both areas (concurrent engineering and composites) - Provides information on 'green' composites
Design and Manufacturing of Plastics Products: Integrating Conventional Methods and Innovative Technologies brings together detailed information on design, materials selection, properties, manufacturing, and the performance of plastic products, incorporating the utilization of the latest novel techniques and additive manufacturing technologies. The book integrates the design of molded products and conventional manufacturing and molding techniques with recent additive manufacturing techniques to produce performant products and cost-effective tools. Key areas of innovation are explained in detail, including hybrid molds, the integration of processing options with product properties and performance, and sustainability factors such as eco-design strategies, recycling, and lifecycle assessment. Other sections cover the development of plastics products, including design methodologies, design solutions specific to plastics, and design for re-use, as well as manufacturing and performance, with an emphasis on thermoplastic molding techniques, recent advances on plastics tooling, and the appraisal of the influence of processing options on product performance. This is a valuable resource to plastics engineers, design engineers, mold makers, and product or part designers across industries. It will also be of interest to researchers and advanced students in plastics engineering, polymer science, additive manufacturing and mechanical engineering. - Offers a thorough grounding in plastics part design, thermoplastic material selection, properties, manufacture and performance of plastic parts - Presents the latest advances, including the integration of additive manufacturing in the plastics product development cycle, hybrid molds, and lifecycle and recycling considerations - Enables the reader to utilize traditional methods alongside cutting-edge technologies in the production of performant plastic products and parts