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Description of  Fluid-structure interactions : cross-flow-induced instabilities

More and more companies manufacture reinforced composite products. To meet the market need, researchers and industries are developing manufacturing methods without a reference that thoroughly covers the manufacturing guidelines. Composites Manufacturing: Materials, Product, and Process Engineering fills this void. The author presents a fundamental classification of processes, helping you understand where a process fits within the overall scheme and which process is best suited for a particular component. You will understand:Types of raw materials available for the fabrication of composite productsMethods of selecting right material for an applicationSix important phases of a product development processDesign for manufacturing (DFM) approach for integrating benefits and capabilities of the manufacturing process into design of the product so that the best product can be produced in a shortest possible time and with limited resourcesDetailed description of composites manufacturing processes with some case studies on actual part making such as boat hulls, bathtubs, fishing rods and moreProcess models and process selection criteriaDesign and manufacturing guidelines for making cost-competitive composite productsProcedures for writing manufacturing instructions and bill of materials Joining and machining techniques for composite materialsCost-estimating techniques and methods of comparing technologies/manufacturing processes based on cost Recycling approach to deal with post-market composite products To stay ahead in this quickly changing field, you need information you can trust. You need Composites Manufacturing: Materials, Product, and Process Engineering "Structures in contact with fluid flow, whether natural or man-made, are inevitably subject to flow-induced forces and flow-induced vibration: from plant leaves to traffic signs and to more substantial structures, such as bridge decks and heat exchanger tubes. Under certain conditions the vibration may be self-excited, and it is usually referred to as an instability. These instabilities and, more specifically, the conditions under which they arise are of great importance to designers and operators of the systems concerned because of the significant potential to cause damage in the short term. Such flow-induced instabilities are the subject of this book. In particular, the flow-induced instabilities treated in this book are associated with cross-flow, that is, flow normal to the long axis of the structure. The book treats a specific set of problems that are fundamentally and technologically important: galloping, vortex-shedding oscillations under lock-in conditions, and rain-and-wind-induced vibrations, among others. The emphasis throughout is on providing a physical description of the phenomena that is as clear and up-to-date as possible"--Provided by publisher. Machine generated contents note: 1. Introduction 2. Prisms in cross-flow -- galloping 3. Vortex-induced vibration and lock-in 4. Wake-induced instabilities of pairs and small groups of cylinders 5. Fluidelastic instabilities in cylinder arrays 6. Ovalling instabilities of shells in cross-flow 7. Rain and wind induced vibrations