Design and Manufacturing of Plastics Products Integrating Traditional Methods With Additive Manufacturing Plastics Design Library Series
Auteur : Pouzada António Sérgio Duarte
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.
1. Introduction 2. Development of plastic products 3. Sustainability of plastics 4. Selection of thermoplastics 5. Basic data required for designing plastic parts 6. Mechanical design with plastics 7. Designing for additive manufacturing 8. Tooling design for injection molding 9. Rapid manufacturing and tooling 10. Plastics manufacturing 11. Processing and product performance
Dr. António Sérgio Duarte Pouzada is a distinguished mechanical engineer, leaving a substantial academic and professional legacy. His journey commenced as a project engineer in Angola, and in 1971, he joined the University of Luanda. After a period of teaching in Portugal, Dr. Pouzada became a faculty member at the University of Minho in 1977. His dedication led him to ascend to the position of Full Professor of Polymer Engineering in 1998. Dr. Pouzada earned his Master of Science in Applied Polymer Engineering from the University of Loughborough in 1979, followed by a Ph.D. in 1982. Throughout his illustrious career, he actively supervised doctoral theses, authored numerous articles, and assumed leadership roles, including the presidency of the School of Engineering at the University of Minho.
- 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
Date de parution : 08-2021
Ouvrage de 604 p.
15.2x22.8 cm
Thèmes de Design and Manufacturing of Plastics Products :
Mots-clés :
Additive manufacturing; Anisotropy; CNC machining; Commodity plastics; Computer databases; Conformal cooling; Cost factors; Creep; Design and processing; Design process; Design with polymers; shrinkage; DfAM; Ductile-fragile transition; Ecodesign; Ejector system; Electrical properties; End of life; Engineering plastics; Failure of products< !--Per specification; only 10 keywords are allowed; Please check and retain only 10 keywords.--> Flammability properties; Functional systems; Hybrid mold; Injection molding; Injection molds; Life cycle; Life cycle assessment; Life cycle costing; Machine hour rate; Mechanical design; Mechanical properties; Melt processing; Mold calculations; Mold components; Mold design; Molding cycle; Molding defects; Molding elements; Molding processes; Moldings; Multimaterial molding; Nonconventional molding; Optical properties; Orientation; Part design; Physical properties; Plastics sustainability; Process variables; Processability; Product design; Product specifications; Pseudomolding method; Rapid prototyping; Rapid tooling; Recyclability; Recycling; Residual stresses; Reuse; Rheological properties; Structural foams; Subcomponent approach; Subcomponents; Sustainability; Thermal properties; Thermoplastics; Tribological properties; Warpage; Weld lines