Properties and Testing of Fiber-Reinforced Polymers - Hardcover

Über die Autorin bzw. den Autor

Yasushi Miyano and Masayuki Nakada are Professors in Materials System Research Laboratory at Kanazawa Institute of Technology, Japan. Their research is focused on the prediction methodology for the long-term creep and fatigue lives of polymer composites based on the time-temperature superposition principle. Prof. Miyano is fellow of the Society for the Advancement of Material & Process Engineering, The Japan Society of Mechanical Engineers, and The Japan Society of Composite Materials. Prof. Nakada is a fellow of The Japan Society of Composite Materials.

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Offers a comprehensive guide to testing and predicting the performance of fiber-reinforced polymer composites

Characterizing and testing fiber-reinforced polymer (FRP) composites is essential for their safe and effective use in high-performance applications, such as aerospace, marine, and automotive engineering. Properties and Testing of Fiber-Reinforced Polymers provides a rigorous, application-oriented treatment of advanced testing methodologies that allow engineers and scientists to accurately predict the long-term behavior of these materials. This reference work covers both foundational concepts and cutting-edge techniques to provide the accurate information required in academic and industrial contexts.

Drawing on over forty years of combined expertise, authors Yasushi Miyano and Masayuki Nakada present the principles and applications of accelerated testing methodologies (ATM) for static, fatigue, and creep strength analysis. Beginning with an accessible introduction to viscoelasticity and the time-temperature superposition principle, the book systematically develops the use of master curves for predicting long-term performance. It then explores advanced and integrated ATM approaches, supported by detailed real-world applications ranging from bolted joint life prediction to the influence of molding conditions and fiber properties on composite strength.

Providing a reliable framework for assessing and ensuring the durability of FRP structures across industries, Properties and Testing of Fiber-Reinforced Polymers:

• Explains advanced accelerated testing methodologies (ATM) for long-term prediction of FRP durability and performance
• Offers detailed descriptions of viscoelasticity and the time-temperature superposition principle
• Presents advanced methods for analyzing static, fatigue, and creep strengths in polymer composites
• Demonstrates the impact of molding conditions, environmental exposure, and fiber properties on material durability
• Provides unique applications of integrated ATM for predicting composite life under complex load conditions

Bridging academic research and industrial implementation of FRP testing methods, Properties and Testing of Fiber-Reinforced Polymers is ideal for graduate-level courses in materials science, polymer engineering, and applied mechanics, particularly within aerospace, automotive, and marine engineering curricula. It is also an authoritative reference for industry professionals, including materials scientists, polymer chemists, and design engineers responsible for the development and evaluation of composite-based products.