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This volume is a concise reference book for someone who has just started working in the composites field, as well as for technologists already active in the area. The chapters in this handbook have been written by experts in their fields and so the information on a particular subject area can be regarded as state of the art. Each chapter is fully referenced, illustrated and includes case studies and applications of polymer composite fabrications.
Machine generated contents note: CHAPTER.I (Mini Symposium. 1) - Statewide and Regional -- Strategies for Planning and Upgrading of R&D in Some -- Model Countries (Germany and EC, Russia, Turkey, Italy) -- Research and Development (R&D) in the United States -- and in the Western Hemisphere -- W.Brostow -- Survey of the Funding of R&D in Germany and the EU -- H.HkkTer -- On Present Status ofAcademic Research and Education -- In Russia -- A. Zerin -- Planning and Upgrading of R & D in Turkey -- A. Ciingirogh -- Statewide and Regional Strategies for Planning -- and Upgrading of R&D in Italy as a Model Country -- M. Malineonico -- Contribution of International Bodies to the R&D -- Capability of CentralAsian and Caucasian Republics: -- Special Attention to EU International Cooperation Programmes -- P. M. $ahin -- Recent Developments in Innovation Policy in the -- European Community -- M. Malinconico -- Small Business and Innovation in R & D -- Anna Brostow.
Polymer composites represent materials of great and of continuously growing importance. Their potential for application appears to be limitless. They have been the subject of numerous studies both at academic and industrial levels. Much progress has been made in the incisive formulation of composites; sophisticated methods of property evaluation have been developed in the past decade and many, largely empirical solutions have been proposed to resolve the problem of their long-term performance under typical conditions of use (i. e. the use of silane or titane coupling agents to enhance adhesion within composite materials). Assuredly one of the most essential factors in the performance of these systems is the condition of the interface and interphase among the constituents of a given system. It has become clear that it is the interface/interphase, and the interactions which take place in this part of a system, which determine to a significant degree the initial properties of the material. In order to achieve leadership in the formulation and application of polymer composites, it is evident that in depth understanding of interfacial and interphase phenomena becomes a prerequisite.
Polymers, main components of plastics and rubbers, are being discarded in increasing quantities. But this waste can also be considered as `plastic gold'. Public concern, coupled with the inherent value of the material, means that recycling is imperative. The present book presents a survey of current knowledge in the form of case studies, including current legal and educational issues. Topics covered also include regulation and practice in NATO countries, the economics of recycling, the reprocessing of single polymers and mixtures, and future prospects and strategies. Audience: Vital reading for all polymer scientists, technicians and engineers.
Carbon filament, vapor grown carbon fibers and carbon nanotubes have been discovered to have remarkable properties, opening they way for their use in intriguing and novel applications in electronics, chemistry and materials science. There are many similarities between nanotubes and filaments, leading many researchers to critically compare the two materials, their production, and potential applications. The two materials are compared and contrasted in depth in the present book, which is a comprehensive review of current research activity, growth mechanisms, physical properties, industrial production, and applications. The structures are discussed using a unified approach, which helps to compare growth mechanisms, contrasting morphological differences, and detailing how novel properties depend on such differences.
At a time when computerized laboratory automation is producing a da ta explosion, chemists are turning to applied mathematics and statistics for the tools to extract useful chemical information from data. This rush to find applicable methods has lead to a somewhat confusing body of literature that represents a barrier to chemists wishing to learn more about chemometrics. The confusion results partly from the mixing of chemical notation and nomenclature with those of statistics, applied mathematics and engineering. Additionally, in the absence of collaboration with mathematicians, chemists have, at times, misused data analysis methodology and even reinvented methods that have seen years of se...
This book is a good basic guide to the polymers that are used in the construction industry. The types of polymers that can be used are discussed and specific applications are also covered. There is also a very comprehensive section on the health and safety aspects of using polymers in buildings.
The construction industry is bombarded with ever-changing building materials—components of which are more and more difficult, if not impossible, to identify. Building material emissions have been implicated as a major source of indoor air pollution, and toxic gases, often unidentified, are generated in building fires. Building Materials: Product Emission and Combustion Health Hazards undertakes the task of identifying building materials emission and combustion health hazards. This practical guide introduces the complex world of polymers commonly used in building materials along with plasticizers and additives that are not regulated by OSHA. It also explores the topic of building materials as they relate to function and their emissions/combustion products along with thermal decomposition and combustion products as they relate to fire first responders. Engaging environmental professionals, construction management firms, architects, first respondents, and students, this valuable reference delivers a comprehensive spectrum of knowledge needed to face the challenges of managing building materials in the twenty-first century. Awareness is the first line of defense!
Polymer coated textiles are known as engineered composite materials at macro scale. Coating can offer significant improvements to the substrate, mainly of the physical (like impermeability and fabric abrasion) and/or of overall chemical properties; as well as the appearance, by combining advantages of the components.Polymer coated systems employ various kinds of textile substrate structures available, mostly of technical textiles. Since there are a number of possibilities for different types of polymers and their combinations, textile structures as well as their combinations are possible; it is widely open to creativities and almost every day some new innovative application is being introduc...
The understanding of adhesion and interfacial effects has benefited from various technological advances in recent years. Advances in laboratory equipment, analytical tools such as the nanoindentor, SIMS, and ESCA, and improvements in computing technology have greatly expanded the relevant body of knowledge. Rapid progress in adhesion and interfacial science has made dissemination of results in a timely fashion more important than ever. Accordingly, the editors of this book organized an ACS symposium, sponsored by the Division of Polymer Chemistry, entitled Fundamentals of Adhesion and Interfaces. The papers in this volume were selected from those presented at the symposium.