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Rapid Cure Composites: Materials, Processing and Manufacturing presents up-to-date information on the design criteria to formulate matrix systems for rapid curing. Emphasis is placed on the role different materials [resin compound and fiber reinforcement] play in developing fast curing composites, assessment of current and novel manufacturing techniques for adapting fast curing processes, the comparison between conventional curing and rapid curing, and different applications in various industrial sectors [e.g., aerospace, automotive, renewables and marine]. The book will be an essential reference resource for academic and industrial researchers working in the field of composite materials, processing and manufacturing organizations, materials scientists, and more. Polymer composites are widely used in several industries, including aerospace, automobile, spray and coatings, and electronics due to their lightweight and superior mechanical properties. However, one of the dominant hurdles towards their growth in commercial industries is the long curing cycle and slow production. - Comprehensively addresses the scientific and technological development of rapid cured epoxy composites - Covers, in detail, the chemistry, processing, structure and performance of rapid cured epoxy composites - Provides detailed comparisons of how/why rapid cure composites are different to conventional composites - Discusses the challenges of the existing technology and future trends
This is a very readable review on the exciting, advancing technology of radiation curing. The principles upon which the technology is based, the equipment that is used and the materials which make up a radiation curable formulation are described. The applications of radiation curing are set to expand. Current applications for radiation curing are all discussed in this review, with principle material types outlined. The review is well referenced to facilitate further reading. It is accompanied by around 400 abstracts from the Rapra Polymer Library database, most of which are cited in the d104.
- NEW! Chapters on preventive and desensitizing materials, tooth whitening, and preventive and corrective oral appliances expand and reorganize this material to keep pace with dynamic areas. - NEW! Cutting-edge content reflects the latest advances in areas such as nano-glass ionomer cements, dental implants, and fluoride varnishes. - NEW! Clinical photographs throughout (more than 550 total) show dental materials being used and applied. - NEW online quizzes provide even more practice for test-taking confidence, and include rationales and page references for remediation.
This handbook presents the current state-of-knowledge in the area of epoxy fiber composites. The book emphasizes new challenges and covers synthesis, characterization, and applications of epoxy/fiber composites. Leading researchers from industry, academy, government and private research institutions across the globe have contributed to this book. The contents comprehensively cover the current status, trends, future directions, and application opportunities in the field. This highly application-oriented handbook will be of use to researchers and professionals alike.
Selected, peer reviewed papers from the 2014 2nd International Conference on Materials, Transportation and Environmental Engineering (CMTEE 2014), July 30-31, 2014, Kunming, China
An understanding of friction and wear behavior of materials is crucial in order to improve their performance and durability. New research is providing the opportunity to solve common problems relating to the development of materials, surface modification, coatings, and processing methods across industries. Processing Techniques and Tribological Behavior of Composite Materials provides relevant theoretical frameworks and the latest empirical research findings on the strategic role of composite tribology in a variety of settings. This book is intended for students, researchers, academicians, and professionals working in industries where wear reduction and performance enhancement of machines and machine elements is essential to success.