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The chapters in both volumes have both new original articles and information and review articles with updated and new information. Oliveira, IPC –Institute for Polymers and Composites, Department of Polymer Engineering, University of Minho, Guimarães, Portugal) II.
The contributors include both academic scientists and research scientists in industry, from 10 different countries in North (USA) and South America (Brazil, Argentina), Asia (China, Korea, Singapore) and Europe (Germany, Italy, Spain, Portugal). Netravali, Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ, USA, and others) Chapter 14 Novel Supercritical Carbon Dioxide Sterilization of Absorbable Sutures and New Amino Acid-based Biomaterials as Suture Coating (Janet L.
Therefore, these 2 volume books are truly internationally as well as multidisciplinary-oriented, covering science and engineering without borders. Basic Degradation Study Chapter 1 Biodegradation from the Viewpoint of a Polymer Chemist – Biodegradable Polyether Graft Polyesters (Jens Köhler, Helmut Keul and Martin Möller, Institute of Technical and Macromolecular Chemistry, RWTH Aachen University and DWI – Leibniz-Institute for Interactive Materials e.
Even when degraded, plastic never truly leaves the environment but is present as smaller pieces invisible to the naked eye (microplastics) that are choking marine life and propagating up the food chain Reduce, reuse and recycle have been embraced as the common approach to combat the escalating plastic waste problem.
The dream is to create a circular plastic economy where products are 100% recyclable, used for as long as possible, and their waste is minimised.
The incorporation of anti-bacterial agents in biodegradable polymer is required.
The working scope in the P-PROF research group are focusing on improvements of mechanical properties of poly(lactic acid), including property modifiers, anti-bacterial performance of anti-bacterial agent in poly(lactic acid) matrix, effect of processing conditions and degradation mechanism (pre-treatment, abiotic and biotic-degradation) of poly(lactic acid).
There are many examples of biodegradable polymers, some are produced from plants, animals or micro-organisms, others are purely synthetic (man-made).
The most commonly known synthetic biodegradable polymers are polylactide (PLA), polyglycolide (PGA), polycaprolactone (PCL), polyhydroxyalkanoates (PHA), poly(butylene succinate) (PBS) and poly(butylene adipate-co-terephthalate) (PBAT)PLA is considered the most promising candidate to replace current plastics.
V., Aachen, Germany) Chapter 2 Constitutive Modeling and Mechanical Behavior Prediction of Biodegradable Polymers during Degradation (André C. Guedes and Volnei Tita, Aeronautical Engineering Department, São Carlos School of Engineering, University of São Paulo, São Carlos, São Paulo, Brazil, and others) Chapter 3 Recent Trends in the Structural Characterization and Degradation of Biodegradable Polymers By Modern Mass Spectrometry (Paola Rizzarelli and Sabrina Carroccio, Istituto per i Polimeri, Compositi e Biomateriali - Consiglio Nazionale delle Ricerche; Catania, Italy) Chapter 4 Real-time in-situ Electrical Monitoring of the Degradation of Biopolymers using Semiconductor Field-effect Devices (A.
Poly(lactic acid) is one of the biodegradable polymers, which is getting the attention of many researchers.