Plastics have occupied an important place in the modern medical industry. It has substituted traditional devices and products made of metal, other materials, and ceramics. Over recent years, increased reliance on transparent plastic pharmaceutical and medical products has produced remarkable breakthroughs that improve medical attention delivery and allow it to be more comfortable for the masses to live better and longer lives. The purpose of this handbook is to provide a strategic perspective on the market to identify opportunities for growth and promising niches in the medical plastics market. It also helps in analyzing emerging trends in medical plastics to facilitate new product development. The medical plastics market is a new field with a broad scope and unending opportunities for manufacturers and suppliers and medical practitioners from healthcare. With a combination of the right material and technology, it has a lot to offer to the patients with affordable pricing. By keeping the worth of the medical plastics market in mind, we have set some objectives. This book identifies growth factors in the medical plastics market and analyzes critical factors of success to compete. The author presents background on the medical plastics market by its usage, products, processes, and innovation. He also reviews existing studies on the medical plastics market for topics like market size, market growth, segment growth, and geographic markets.
Plastics have occupied an important place in the modern medical industry. It has substituted traditional devices and products made of metal, other materials, and ceramics. Over recent years, increased reliance on transparent plastic pharmaceutical and medical products has produced remarkable breakthroughs that improve medical attention delivery and allow it to be more comfortable for the masses to live better and longer lives. The purpose of this handbook is to provide a strategic perspective on the market to identify opportunities for growth and promising niches in the medical plastics market. It also helps in analyzing emerging trends in medical plastics to facilitate new product development. The medical plastics market is a new field with a broad scope and unending opportunities for manufacturers and suppliers and medical practitioners from healthcare. With a combination of the right material and technology, it has a lot to offer to the patients with affordable pricing. By keeping the worth of the medical plastics market in mind, we have set some objectives. This book identifies growth factors in the medical plastics market and analyzes critical factors of success to compete. The author presents background on the medical plastics market by its usage, products, processes, and innovation. He also reviews existing studies on the medical plastics market for topics like market size, market growth, segment growth, and geographic markets.
Emerging Trends in Medical Plastic Engineering and Manufacturing gives engineers and materials scientists working in the field detailed insights into upcoming technologies in medical polymers. While plastic manufacturing combines the possibility of mass production and wide design variability, there are still opportunities within the plastic engineering field which have not been fully adopted in the medical industry. In addition, there are numerous additional challenges related to the development of products for this industry, such as ensuring tolerance to disinfection, biocompatibility, selecting compliant additives for processing, and more. This book enables product designers, polymer processing engineers, and manufacturing engineers to take advantage of the numerous upcoming developments in medical plastics, such as autoregulated volume-correction to achieve zero defect production or the development of 'intelligent' single use plastic products, and methods for sterile manufacturing which reduce the need for subsequent sterilization processes. Finally, as medical devices get smaller, the book discusses the challenges posed by miniaturization for injection molders, how to respond to these challenges, and the rapidly advancing prototyping technologies. - Provides a roadmap to the emerging technologies for polymers in the medical device industry, including coverage of 'intelligent' single use products, personalized medical devices, and the integration of manufacturing steps to improve workflows - Helps engineers in the biomedical and medical devices industries to navigate and anticipate the special requirements of this field with relation to biocompatibility, sterilization methods, and government regulations - Presents tactics readers can use to take advantage of rapid prototyping technologies, such as 3D printing, to reduce defects in production and develop products that enable entirely new treatment possibilities
No book has been published that gives a detailed description of all the types of plastic materials used in medical devices, the unique requirements that the materials need to comply with and the ways standard plastics can be modified to meet such needs. This book will start with an introduction to medical devices, their classification and some of the regulations (both US and global) that affect their design, production and sale. A couple of chapters will focus on all the requirements that plastics need to meet for medical device applications. The subsequent chapters describe the various types of plastic materials, their properties profiles, the advantages and disadvantages for medical device applications, the techniques by which their properties can be enhanced, and real-world examples of their use. Comparative tables will allow readers to find the right classes of materials suitable for their applications or new product development needs.
This chapter focuses on adhesives used in direct physiological contact in dental and medical procedures. Activity in both areas has been quite extensive outside the United States for decades. In contrast, adhesive use in medical devices, patches, and plasters has been ongoing in the United States for a long time. In the case of medical devices, adhesion is concerned with the joining of materials such as plastics, elastomers, textiles, metals, and ceramics, which are examined in other chapters of the present volume and are covered in various references [1–6], The coverage of this chapter is devoted to applications where to adhesives are in direct contact with tissues and other live organs.
The Plastics Paradox is the first and only book to reveal the truth about plastics and the environment. Based on over 400 scientific articles, it dispels the myths that the public believe today. We are told that plastics are not green when in fact, they are usually the greenest choice according to lifecycle analysis (LCA) We are told that plastics create a waste problem when they are proven to dramatically reduce waste, for example replacing 1lb of plastic requires 3-4lb of the replacement material We are told that plastics take 1000 years to degrade when in fact a plastic bag disintegrates in just one year outdoors We are led to believe that plastic bags and straws are an issue when in fact they barely register in the statistics The list goes on... Everything you believe now is untrue and we are making policies that harm the environment based on bad information. After reading The Plastics Paradox you will be able to make wise choices that help create a brighter future for us and for our children.
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.
Plastics currently form one of the most important components of the medical industry. Medical device designers and engineers increasingly prefer plastics to conventional packaging materials such as metals owing to superior flexibility offered by plastics in fabrication process. Advancements in sterilization techniques shift towards disposable devices, development of enhanced plastic materials, and technological innovations are factors driving the overall market growth and expansion. The development of novel materials such as biocompatible polymers for use in medical implants will furthermore provide the required impetus for the global medical plastics market. Every day, plastics are involved in critical surgeries, life saving efforts, and routine medical procedures. Plastic materials can be sterilized hundreds of times without degradation. Lightweight plastics are used to form replacement joints, non surgical supports, and therapy equipment. Clear plastics provide visibility for transfusions, surgeries, and diagnostic equipment of all kinds and plastics can be machined, molded, or formed into almost any shape imaginable. The use of plastics in health care field encompasses several distinct markets. Plastic is used on a large scale as medical devices like disposable syringes, optical and dental products, heart valves, contact lenses and many more medical products. This way plastic has very importance in making medical devices. The medical plastics industry is set to expand rapidly over the next decade taking up increasing proportions of GDP, as countries provide healthcare to an ageing population, access to medicine expands in developing regions and new technology is developed. This book basically deals with significance of packaging for pharmaceuticals & medical industry, tablets & capsules liquids, creams and ointments, OPVC, OPP and oriented and non oriented pet containers, blister trays for ampoules, cartridge tubes etc., shrink packaging and stretch wrapping, conducting health based risk assessments of medical materials, performance properties of metallocene polyethylene, EVA, and flexible PVC films, polyurethane thin film welding for medical device applications, polyurethane film as an alternative to PVC and latex, opportunities for PVC replacement in medical solution containers, thermoplastic silicone urethane copolymers : a new class of biomedical elastomers, selecting materials for medical products : from PVC to metallocene polyolefins, injection molding engineering plastics, assessing the performance and suitability of parylene coating etc. The present book contains the important information of plastics in medical field and their uses in various ways. This is very useful book for entrepreneurs, researchers, technocrats and technical institutions. 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The use of polymers in medical devices is growing at a steady rate. These materials are generally relatively cheap and versatile, qualities required in many bulk applications. In more specialised medical devices, polymeric components have been developed to meet challenging property and performance requirements. This review describes the process of developing polymeric products for medical applications from design requirements through to specific examples of medical devices and packaging. An additional indexed section containing several hundred abstracts from the Rapra Polymer Library database gives useful references for further reading.