Composite Reinforcements for Optimum Performance, Second Edition, has been brought fully up to date with the latest developments in the field. It reviews the materials, properties and modelling techniques used in composite production and highlights their uses in optimizing performance.
Part I covers materials for reinforcements in composites, including chapters on fibers, carbon nanotubes and ceramics as reinforcement materials. In Part II, different types of structures for reinforcements are discussed, with chapters covering woven and braided reinforcements, three-dimensional fibre structures and two methods of modelling the geometry of textile reinforcements: WiseTex and TexGen. Part III focuses on the properties of composite reinforcements, with chapters on topics such as in-plane shear properties, transverse compression, bending and permeability properties. Finally, Part IV covers the characterization and modelling of reinforcements in composites, with chapters focusing on microscopic and mesoscopic approaches, X-ray tomography analysis and modelling reinforcement forming processes.
With its distinguished editor and international team of contributors, Composite Reinforcements for Optimum Performance, Second Edition, is an essential reference for designers and engineers working in the composite and composite reinforcement manufacturing industry, as well as all those with an academic research interest in the subject.
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Table of Contents
Part I Materials for reinforcements in composites1. Fibers for composite reinforcement: properties and microstructures2. Carbon nanotube reinforcements for composites3. Ceramic reinforcements for composites
Part II Structures for reinforcements in composites4. Woven reinforcements for composites5. Braided reinforcements for composites6. Three-dimensional (3D) fiber reinforcements for composites7. Modelling the geometry of textile reinforcements for composites: WiseTex8. Modelling the geometry of textile reinforcements for composites: TexGen
Part III Properties of composite reinforcements9. In-plane shear properties of woven fabric reinforced composites10. Biaxial tensile properties of reinforcements in composites11. Transverse compression properties of composite reinforcements12. Bending properties of reinforcements in composites13. Friction properties of reinforcements in composites14. Permeability properties of reinforcements in composites
Part IV Characterising and modelling reinforcements in composites15. Microscopic approaches for understanding the mechanical behavior of reinforcements in composites 16. Mesoscopic approaches for understanding the mechanical behavior of reinforcements in composites 17. Continuous models for analyzing the mechanical behavior of reinforcements in composites 18. X-ray tomography analysis of the mechanical behavior of reinforcements in composites19. Flow modeling in composite reinforcements 20. Modelling short fiber polymer reinforcements for composites 21. Modelling composite reinforcement forming processes
