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This monograph is the first in the new area of targeted nonlinear energy transfer in mechanical and structural systems. This concept was initially discovered by the two leading authors in 1999, and was further developed exclusively by the entire author group in the last 6 years. Since then, additional groups of researchers in the USA, Russia, UK and France have started working on this concept and applying it. It is estimated that in the years to come, the concept of targeted nonlinear energy transfer will be considered and applied by numerous groups ofresearchers and practitioners internationally. This monograph presents theoretical methods, computational results and experimental demonstrations of this concept applied to discrete and continuous coupled nonlinear oscillators. Moreover, it demonstrates the wide applicability of targeted nonlinear energy transfer to a wide range of problems, including: - Vibration and shock isolation in mechanical systems - Seismic mitigation - Aeroelastic and structural instability suppression - Drilling operations - Packaging devices This is a groundbreaking and unique volume, providing new design paradigms in a variety of fields.
Energy transfer. --- Nonlinear systems. --- Energy transfer --- Nonlinear systems --- Mechanical Engineering - General --- Operations Research --- Civil Engineering --- Civil & Environmental Engineering --- Mechanical Engineering --- Engineering & Applied Sciences --- Nonlinear mechanics. --- Systems, Nonlinear --- Mechanics, Nonlinear --- Engineering. --- Applied mathematics. --- Engineering mathematics. --- Structural mechanics. --- Vibration. --- Dynamical systems. --- Dynamics. --- Automotive engineering. --- Vibration, Dynamical Systems, Control. --- Appl.Mathematics/Computational Methods of Engineering. --- Engineering, general. --- Structural Mechanics. --- Automotive Engineering. --- Mechanics, Analytic --- System theory --- Mechanics. --- Mechanics, Applied. --- Mathematical and Computational Engineering. --- Solid Mechanics. --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory --- Construction --- Industrial arts --- Technology --- Engineering --- Engineering analysis --- Mathematical analysis --- Cycles --- Mechanics --- Sound --- Mathematics --- Dynamical systems --- Kinetics --- Force and energy --- Statics
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The papers in this volume address advanced nonlinear topics in the general areas of vibration mitigation and system identification, such as, methods of analysis of strongly nonlinear dyanmical systems; techniques and methodologies for interpreting complex, multi-frequency transitions in damped nonlinear responses; new approaches for passive vibration mitigation based on nonlinear targeted energy transfer (TET) and the associated concept of nonlinear energy sink (NES); and an overview and assessment of current nonlinear system identification techniques.
Mathematics --- Classical mechanics. Field theory --- Mechanical properties of solids --- Engineering sciences. Technology --- patroonherkenning --- dynamica --- optica
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The papers in this volume address advanced nonlinear topics in the general areas of vibration mitigation and system identification, such as, methods of analysis of strongly nonlinear dyanmical systems; techniques and methodologies for interpreting complex, multi-frequency transitions in damped nonlinear responses; new approaches for passive vibration mitigation based on nonlinear targeted energy transfer (TET) and the associated concept of nonlinear energy sink (NES); and an overview and assessment of current nonlinear system identification techniques.
Mathematics --- Classical mechanics. Field theory --- Mechanical properties of solids --- Engineering sciences. Technology --- patroonherkenning --- dynamica --- optica
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The papers in this volume address advanced nonlinear topics in the general areas of vibration mitigation and system identification, such as, methods of analysis of strongly nonlinear dyanmical systems; techniques and methodologies for interpreting complex, multi-frequency transitions in damped nonlinear responses; new approaches for passive vibration mitigation based on nonlinear targeted energy transfer (TET) and the associated concept of nonlinear energy sink (NES); and an overview and assessment of current nonlinear system identification techniques.
Advanced nonlinear strategies. --- Energy transfer -- Congresses. --- Nonlinear strategies. --- Nonlinear systems -- Congresses. --- Shock (Mechanics) -- Congresses. --- System identification. --- Vibration -- Congresses. --- Vibration mitigation. --- Vibration --- Shock (Mechanics) --- Nonlinear systems --- Energy transfer --- Civil & Environmental Engineering --- Engineering & Applied Sciences --- Civil Engineering --- Systems, Nonlinear --- Mechanical shock --- Engineering. --- Vibration. --- Dynamical systems. --- Dynamics. --- Vibration, Dynamical Systems, Control. --- System theory --- Damping (Mechanics) --- Impact --- Mechanics --- Strains and stresses
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Vibration. --- Nonlinear systems. --- Vibration --- Nonlinear systems --- Dynamique --- Oscillations --- Systemes non-lineaires
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