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Offers descriptions of plastics joining processes, as well as a compilation of data on joining specific materials. This volume is divided into two main parts: processes and materials. It includes techniques such as flash free welding and friction stir welding. It covers thermoplastics, thermosets, elastomers, and rubbers.

Applied Plastics Engineering Handbook: Processing, Sustainability, Materials, and Applications, Third Edition presents the fundamentals of plastics engineering, helping bring readers up-to-speed on new plastics, materials, processing and technology. This revised and expanded edition includes the latest developments in plastics, including areas such as biodegradable and biobased plastics, plastic waste, smart polymers, and 3D printing. Sections cover traditional plastics, elastomeric materials, bio-based materials, additives, colorants, fillers and plastics processing, including various key technologies, plastic recycling and waste. The final part of the book examines design and applications, with substantial updates made to reflect advancements in technology, regulations, and commercialization. Throughout the handbook, the focus is on engineering aspects of producing and using plastics. 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.

Handbook of Thermoplastic Fluoropolymers: Properties, Characteristics and Data gathers key technical information about structure, characteristics, properties and processing methods of commercial thermoplastic fluoropolymers in one easy reference. Thermoplastic fluoropolymers have many desirable functional characteristics, such as high thermal stability, reliability at high mechanical loads, a wide range of operating temperatures, and high chemical and radiation stability. These characteristics make them crucial in many specialist applications, including in the military, biopharmaceuticals and environmental protection. This uniquely comprehensive guide to this versatile family of polymers will help processors, fabricators and end-users find new and innovative solutions.Detailed coverage of technical details of processing methods, characteristics, and chemical properties of commercial thermoplastic fluoropolymers all in one place make this the most authoritative reference to the subject available.

Applications of Polyurethanes in Medical Devices provides detailed coverage of polyurethane (PU) chemistry, processing and preparation for performant medical devices. Polyurethanes have found many uses in medical applications, due to their biocompatibility, biostability, physical properties, surface polarity, and the ability to suit the field of application. This book enables the reader to understand polyurethane and how this valuable material can be used in medical devices. Sections cover the chemistry, structure, and properties of polyurethane, with in-depth sections examining raw materials, reaction chemistry, synthesis techniques, reaction kinetics, material microstructure, and structure-property relationships. Subsequent chapters demonstrate how polyurethane can be utilized in medical device applications, examining biological properties, rheology and processing before methodical coverage explains how polyurethane may be used for each category of medical device. Finally, future directions, and safety and environmental aspects, are covered. Bridges the gap between polyurethane chemistry, processing and preparation for cutting-edge medical device applications Includes in-depth coverage of polyurethane, covering raw materials, chemistry, synthesis techniques, reaction kinetics, properties and microstructural analysis Takes a valuable and practical approach, addressing manufacturing issues and using testing and modeling to solve problems encountered in processing

Polymers for 3D Printing: Methods, Properties, and Characteristics provides a detailed guide to polymers for 3D printing, bridging the gap between research and practice, and enabling engineers, technicians and designers to utilise and implement this technology for their products or applications. Presents the properties, attributes, and potential applications of the polymeric materials used in 3D printing Analyses and compares the available methods for 3D printing, with an emphasis on the latest cutting-edge technologies Enables the reader to select and implement the correct 3D printing technology, according to polymer properties or product requirements

Permeability properties are essential data for the selection of materials and design of products across a broad range of market sectors from food packaging to Automotive applications to Medical Devices. This book brings together permeability data in a form that enables quick like-for-like comparisons between materials.

Applications of Polymers and Plastics in Medical Devices: Design, Manufacture, and Performance is a comprehensive guide to plastic materials for medical devices, covering fundamentals, materials, applications and regulatory requirements. Sections cover the role of plastics in medical devices, socioeconomic factors, the classification of medical devices. The performance of, medical grades and suppliers of polymer materials, which are categorized by performance level are also explored, along with manufacturing processes for device components, including extrusion, casting, injection molding and assembly processes. The book then covers applications in detail, examining each device and the role that polymers and plastics play in its construction and function. This is an essential resource for engineers, R&D, and other professionals working on plastics for medical devices and those in the plastics industry, medical device manufacturing, pharmaceuticals, packaging and biotechnology. In an academic setting, this book is of interest to researchers and advanced students in medical plastics, plastics engineering, polymer science, mechanical engineering, chemical engineering, biomedical engineering and materials science. Offers systematic coverage of the major classes of polymers used in medical devices, including properties, characteristics, performance, medical grades and suppliers Reviews regulatory requirements of the FDA and other global agencies, as well as considering quality control and socioeconomic factors Includes the latest advances in plastics for medical devices, such as novel applications, use of bio-based polymers, and processing of reusable medical devices

Provides a comprehensive survey of the chemical processes, manufacturing techniques and design properties of each polymer, along with their applications. This title helps reader to make the right decision and take the correct action.

Polylactic Acid (PLA) is the first viable thermoplastic that can be produced from a plant-based feedstock such as corn or sugar cane, and yet be processed by conventional melt processing technologies. This book is suitable for engineers and scientists involved in working with PLA and developing many products that are emerging for this biopolymer.

Polymer Hybrid Materials and Composites: Fundamentals and Applications presents an introduction to the principles behind polymeric hybrid materials, providing both theoretical and practical information on the synthesis and application of these materials. It documents the latest innovations, ranging from materials development and characterization of properties, to applications. Sections cover the route from laboratory to industry, providing practical, actionable guidance to assist the scaling up process for applications in areas including energy technology, solar cells, water purification, medical devices, optical and electrical devices, and more. It is an essential introduction to the emerging technologies that are made possible by these advanced materials.

Introduction to Fluoropolymers, Second Edition, provides a comprehensive overview of the history, principles, properties, processing and applications of fluoropolymers, supporting their development and utilization in high-performance applications, components, and products. This second edition has been updated and expanded to include new in-depth chapters on manufacturing and applications of PTFE and melt processible fluoropolymers. The book begins by demonstrating the role of fluoropolymers in everyday life, before introducing the history and basic principles of fluoropolymers. This is followed by detailed coverage of the main fluoropolymer types. Properties and applications are illustrated by real-world examples as diverse as waterproof clothing, vascular grafts and coatings for aircraft interiors. The different applications of fluoropolymers show the benefits of a group of materials that are highly water-repellant and flame-retardant, with unrivalled lubrication properties and a high level of biocompatibility. Health and safety and environmental aspects are also covered throughout the book, with a final chapter examining safety, disposal, and recycling in detail. This book is an essential resource for anyone looking to understand or use fluoropolymer materials in their products. This includes engineers, product designers, manufacturers, scientists, researchers, and other professionals, across industries such as automotive, aerospace, medical devices, food and beverages, high performance apparel, oil and gas, renewable energy, solar photovoltaics, electronics and semiconductors, pharmaceuticals, and chemical processing. This is also a valuable introductory guide for academic researchers and advanced students in plastics engineering, polymer science, and materials science.Introduces and demystifies fluoropolymers for a wide audience of engineers, designers, professionals, and researchers, across industries and disciplinesCovers a broad range of materials, including polytetrafluoroethylene (PTFE), polyvinyl fluoride (PVF), vinylidene fluoride polymers, fluoroelastomers, and moreFocuses on properties, processing methods and advanced industrial applications of fluoropolymers

This book and its companion volumes contain plastics additives formulations based on information received from numerous industrial companies and other organizations. Each formulation is identified by a description of its end use.

Applications of Fluoropolymer Films: Properties, Processing, and Products presents an overview of fluoropolymer films, manufacturing methods, typical properties, and commercial grades for each type of fluoropolymer film. The second part of the book is uniquely focused on the applications of fluoropolymer films, with detailed information on their use in cutting-edge items across major industries, including aerospace and automotive, architectural, chemical processing, construction, consumer products, electronics, food packaging, pharmaceuticals and solar energy. Presents a focused approach on the practical applications of fluoropolymer films, supporting their use in state-of-the-art products across a range of industriesContains detailed coverage of manufacturing methods, properties and commercial grades for fluoropolymer filmsUnlocks the potential of the advanced properties offered by fluoropolymer films

Recycling of Flexible Plastic Packaging presents thorough and detailed information on the management and recycling of flexible plastic packaging, focusing on the latest actual/potential methods and techniques and offering actionable solutions that minimize waste and increase product efficiency and sustainability. Sections cover flexible plastic packaging and its benefits, applications and challenges. This is followed by in-depth coverage of the materials, types and forms of flexible packaging. Other key discussions cover collection and pre-treatment, volume reduction, separation from other materials, chemical recycling, post-processing and reuse, current regulations and policies, economic aspects and immediate trends. This information will be highly valuable to engineers, scientists and R&D professionals across industry. In addition, it will also be of great interest to researchers in academia, those in government, or anyone with an interest in recycling who is looking to further advance and implement recycling methods for flexible plastic packaging.

Electrical Conductivity in Polymer-Based Composites: Experiments, Modelling and Applications offers detailed information on all aspects of conductive composites. These composites offer many benefits in comparison to traditional conductive materials, and have a broad range of applications, including electronic packaging, capacitors, thermistors, fuel cell devices, dielectrics, piezoelectric functions and ferroelectric memories. Sections cover the theory of electrical conductivity and the different categories of conductive composites, describing percolation threshold, tunneling effect and other phenomena in the field. Subsequent chapters present thorough coverage of the key phases in the development and use of conductive composites, including manufacturing methods, external parameters, applications, modelling and testing methods. This is an essential source of information for materials scientists and engineers working in the fields of polymer technology, processing and engineering, enabling them to improve manufacture and testing methods, and to benefit fully from applications. The book also provides industrial and academic researchers with a comprehensive and up-to-date understanding of conductive composites and related issues.Explains the methods used in the manufacture and testing of conductive composites, and in the modeling of electrical conductivityContains specialized information on the full range of applications for conductive composites, including conductive adhesives or pastesBrings scientists, engineers and researchers up-to-date with the latest advances in the field

Service Life Prediction of Polymers and Coatings: Enhanced Methods focuses on the cutting-edge science behind how plastic and polymer materials are modified by the effects of weathering, offering the latest advances in service life prediction methods. The chapters have been developed by experts based on their contributions as part of the 7th Service Life Prediction Meeting. The volume begins with the premise that it is possible to produce and design life predictions, also looking at how these predictions can be used. Subsequent chapters present new developments in service life prediction, examining the most important considerations in SLP design, timescales, and other major issues. The book also considers the current state of the field in terms of both accomplishments and areas that require significant research going forward. This is a highly valuable reference for engineers, designers, technicians, scientists and R&D professionals who are looking to develop materials, components or products for outdoor applications across a range of industries. The book also supports academic researchers, scientists and advanced students with an interest in service life, the effects of weathering, material degradation, failure analysis, or sustainability across the fields of plastics engineering, polymer science and materials science. Presents novel prediction techniques for plastics and polymers exposed to outdoor weatheringProvides a consensus roadmap on the scientific barriers related to a validated, predictive model for the response of polymer and plastics to outdoor exposureEnables the reader to assess and compare different methods and approaches to service life prediction

Polylactic Acid: A Practical Guide for the Processing, Manufacturing, and Applications of PLA, Second Edition, provides a practical guide for engineers and scientists working in PLA and on the development of emerging new products. The current market situation for PLA and biodegradable polymers is described, along with applications across a range of market sectors. In addition, the mechanical, chemical, thermal, rheology and degradation properties are included. Updates include new chapters covering various processing methods, as well as recycling methods, and additives and processing aids. New applications cover a range of products (including 3D Printing), and an environmental assessment, including regulatory aspects. The book is not only a useful introduction to this topic, but also a practical, readily applicable reference book that will support decision-making in the plastics industry.Presents an essential reference for engineers, scientists and product designers considering switching to a sustainable plasticCovers the properties, synthesis and polymerization of PLA, along with processing techniques involved in fabricating parts from this polymerIncludes critical new chapters on processing, additives, recycling and environmental considerations relating to PLA

Utilization of Plastic Waste: Processing, Technology, and Applications compiles the latest advances in the utilization of plastic waste, explaining the processing methods and technology behind a range of applications. Chapters cover the types of solid waste, the sources of plastic waste, mechanical and chemical recycling possibilities, key principles, strategies and policies for plastic waste management, treatment methods, the steps involved in the recycling and re-utilization of plastic waste, specific uses for waste plastic, and future directions for these innovative technologies. This is an essential source of information for waste management and recycling professionals, engineers, manufacturers, scientists and R&D professionals in the plastics industry. In addition, government officials, regulators, NGOs, researchers, and graduate and postgraduate students across plastics engineering, waste management, sustainability, packaging, polymer science, chemical engineering, processing technology, and environmental science will find this to be a comprehensive resource. Presents novel methods for the treatment and processing of plastic wasteDemystifies the utilization of plastic waste for composite tiles, conversion to fuels, road construction and carbon nanotubesConsiders the potential implementation of developing technologies, supporting further innovation and increased re-use of plastic waste