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""Moving load problems occur in a wide variety of applications: rail mechanics, dynamics of computer tapes, floppy and hard discs, automotive and aircraft braking systems, belt drives, web winding and transport. Some typical moving load problems are the vibration of track, bridge or ground excitation from travelling vehicles, and noise and vibration from spinning computer hard discs and during machining processes in manufacturing. As modern lightweight and high strength materials continue to be very popular in engineering, it is expected that vibration and instabilities problems due to moving loads will remain important. This volume treats the fundamentals of moving loads problems with accurate identification and computational efficiency. It starts with detailed descriptions of the dynamic behavior of continuous beam, beam-slab type bridge deck and multi-box spline bridge decks under the passage of moving loads. The second part addresses moving load identification problems with both simple methods for universal application and with specialized techniques. A final chapter treats problems associated with the practical application of moving load identification techniques"--"@en
"The interaction phenomenon is very common between different components of a mechanical system. It is a natural phenomenon and is found with the impact force in aircraft landing; the estimation of degree of ripeness of an apple from impact on a beam; the interaction of the magnetic head of a computer disk leading to miniature development of modern computer; etc. Uncertainty in some of them would lead to inaccurate analysis results on the behavior of the structure. The interaction force is difficult to measure unless instruments have been installed during construction for this purpose. Some of t."@en
""Moving load problems occur in a wide variety of applications: rail mechanics, dynamics of computer tapes, floppy and hard discs, automotive and aircraft braking systems, belt drives, web winding and transport. Some typical moving load problems are the vibration of track, bridge or ground excitation from travelling vehicles, and noise and vibration from spinning computer hard discs and during machining processes in manufacturing. As modern lightweight and high strength materials continue to be very popular in engineering, it is expected that vibration and instabilities problems due to moving loads will remain important. This volume treats the fundamentals of moving loads problems with accurate identification and computational efficiency. It starts with detailed descriptions of the dynamic behavior of continuous beam, beam-slab type bridge deck and multi-box spline bridge decks under the passage of moving loads. The second part addresses moving load identification problems with both simple methods for universal application and with specialized techniques. A final chapter treats problems associated with the practical application of moving load identification techniques"--"

genre

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"Electronic books"@en
"Ressources Internet"

name

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"Moving loads : dynamic analysis and identification techniques"
"Moving loads : dynamic analysis and identification techniques"@en
"Moving loads dynamic analysis and identification techniques"@en
"Moving loads dynamic analysis and identification techniques"
"Moving Loads - Dynamic Analysis and Identification Techniques Structures and Infrastructures Book Series, Vol. 8"@en
"Moving loads : Dynamic analysis and identification techniques"

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