In Plastic Purge, ecologist, SanClements has put together the most up-to-date and scientifically-backed information available to explain how plastics release toxins into your body and the effect they have on your and your children's health. Both approachable and engaging, Plastic Purge provides easy-to-follow advice for how to use less plastic, thereby reaping the benefits such as eating a healthier diet and living with less clutter. Dividing plastics into three separate categories: the good, the bad, and the ugly, SanClements shows you how to embrace the good (items like your phone or medical equipment), avoid the bad (food storage containers and toys that contain toxic chemicals), and use less of the ugly (single-use plastic that's just plain wasteful).
With the help of Michael SanClements's Plastic Purge, you and your family will develop easy habits to live a healthier and happier lives.
Odor can play a significant role in the success of a product; it can decide whether a customer purchases the product in the first place, or can be the cause of complaints or returns. Similarly, in scented products, the retention of volatile components is a particular challenge and opportunity. There are several factors which have an impact on the formation of odors in plastic materials, including the properties of the polymer, use of additives in processing, exposure to radiation and oxygen, storage, and recycling.
Thirty-seven polymers and forty-one critical product groups are analyzed based on the latest research publications and patents. The book also discusses regulations related to odor in products, effects of odor on health and safety, and the effect of odors from plastic materials on indoor air quality.Analyzes the reasons behind odor formationProvides the best methods to prevent odors in various materialsContains information on testing odor changes and the relationship between odor and toxicityIncludes a comprehensive list of methods for removal of unwanted odors from plastic materials
Note: CD-ROM/DVD and other supplementary materials are not included as part of eBook file.
The handbook is structured by grouping together plastics of similar polymer types into ten chapters. Each of these chapters is split into two sections: Fatigue Properties and Tribological Properties, and together they provide a compendium of several hundred graphs and charts, supplying the core data needed by engineers and scientists on a day-to-day basis.
The data for this third edition has been updated to cover upwards of five years since the previous edition was published, and also includes an entirely new chapter covering sustainable and biodegradable polymers. The book also includes an extensive introductory section covering fatigue, what it is and how it is measured; the fundamentals of tribology; polymer chemistry and plastics composition. These chapters also provide readers with a full understanding of the data section, and how to put it to use as a hard-working information tool.
The third edition includes new text chapters that provide the underpinning knowledge required to make best use of the data. Larry McKeen has also added detailed descriptions of sterilization methods for most common polymer classes such as polyolefins, polyamides, polyesters, elastomers, fluoropolymers, biodegradable plastics. Data has been updated throughout, with expanded information on newer classes of polymer utilized in medical devices and sterile packaging, such as UHMWPE, high temperature plastics (PEEK, PES, PPS, etc.), PBT, PETG, etc. The resulting Handbook is an essential reference for Plastics Engineers, Materials Scientists and Chemists working in contexts where sterilization is required, such as food packaging, pharmaceutical packaging and medical devices.Essential data and practical guidance for engineers and scientists working with plastics in applications that require sterile packaging and equipment.3rd edition includes new introductory chapters on sterilization processes and polymer chemistry, providing the underpinning knowledge required to utilize the data.Provides essential information and guidance for FDA submissions required for new Medical Devices.
Handbook of Plastic Processes is the only comprehensive reference covering not just one, but all major processes used to produce plastic products-helping designers and manufacturers in selecting the best process for a given product while enabling users to better understand the performance characteristics of each process.
The authors, all experts in their fields, explain in clear, concise, and practical terms the advantages, uses, and limitations of each process, as well as the most modern and up-to-date technologies available in their application.
Coverage includes chapters on:Injection molding Compression and transfer molding Sheet extrusion Blow molding Calendering Foam processing Reinforced plastics processing Liquid resin processing Rotational molding Thermoforming Reaction injection molding Compounding, mixing, and blending Machining and mechanical fabrication Assembly, finishing, and decorating
Each chapter details a particular process, its variations, the equipment used, the range of materials utilized in the process, and its advantages and limitations.
Because of its increasing impact on the industry, the editor has also added a chapter on nanotechnology in plastics processing.
The data is supported by a full explanation of its interpretation, and an introduction to the engineering aspects of permeability in polymers.
The third edition includes expanded explanatory text which makes the book accessible to novices as well as experienced engineers, written by industry insider and author Larry McKeen (DuPont), and 20% new data and major new explanatory text sections to aid in the interpretation and application of the data.A unique collection of permeability data designed to enable quick like-for-like comparisons between different materialsThird edition includes 20% new data and expanded explanatory text, which makes the book accessible to novices as well as experienced engineersEssential reference for materials engineers, design engineers and applications engineers across sectors including packaging, automotive and medical devices