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Biodegradable polymers for industrial applications Ray Smith
Publisher: CRC Press

Description Biodegradable materials, especially polymers, are used in numerous orthopedic, surgical, dental, and drug delivery applications. These include education and international policies, math, medicine, pharmacy, biology, agriculture and forestry, engineering and industry, physics, chemistry, earth and space sciences, veterinary, social sciences, and the humanities P. Biodegradable polymers created from poultry feathers may add value to the poultry industry and help solve the growing environmental problem of plastic waste. Biodegradable Polymers Market to Reach $3 billion globally by 2015, According to a New Report by Global Industry Analysts. Much effort currently focuses on biodegradable-polymer development for speciality use, such as in biomedicine and commodities. Such sources include fossil fuel polymers and have given rise to biodegradable and compostable plastics such as polybutylenexacinate and polyglycolic acid. Dijkstra, Biodegradable Polymers for Industrial Applications, pp. During the last two decades, advances in biodegradable materials have been made significantly for the development in biomedical applications, and in this category there are industrial applications as well. Sumera (Professor of Chemistry, Material Science and Engineering, UP-Diliman), for his work on the synthesis of coconut fatty acid derivatives for biofuels and biodegradable polymers with potential environmental and medical use. Polymers created with poultry feathers. Scientists at IBN IBN actively pursues research collaboration to address important healthcare problems in the world as we believe that technological breakthroughs will occur when they are built upon shared expertise and strengths between research organizations, clinicians, academia and industry. (PhysOrg.com) -- Researchers at Columbia University have successfully discovered a beneficial use for carbon dioxide in the conversion of organic materials, such as grass and bark, into fuel. The recent study indicates that industrial sectors and researchers have had augmented interests in production of plastics that are Bioplastics are similar to traditional plastics in their application but the difference is that they are characteristic biodegradable in a specified composting cycle. Most antimicrobial polymers are also non-biodegradable, which limits their in vivo applications as they cannot be naturally eliminated from the body. Further study is recommended to investigate the speed at which biodegradable polymers decompose outside of industrial composting situations, and their durability in marine and freshwater systems. Bioplastics are increasingly finding interesting applications in durables. They may serve as monoliths or as device coatings.