Topics in Experimental Dynamics Substructuring and Wind Turbine Dynamics, Volume 2, Proceedings of the 30th IMAC, A Conference and Exposition on Structural Dynamics, 2012, the second volume of six from the Conference, brings together 31 contributions to this important area of research and engineering. The collection presents early findings and case studies on fundamental and applied aspects of Structural Dynamics.
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978-1-040-60123-5 (9781040601235)
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R. Mayes, Sandia National Laboratories, Albuquerque, USA. D. Rixen, Delft University of Technology, Delft, Netherlands. D.T. Griffith, Sandia National Laboratories, Albuquerque, USA. D. De Klerk, Delft University of Technology, Delft, Netherlands. S. Chauhan, Brueel and Kjaer, Skodsborgvej, Denmark. S.N. Voormeeren, Delft University of Technology, Delft, Netherlands. M.S. Allen, University of Wisconsin Madison, Madison, USA.
1 Tutorial on Experimental Dynamic Substructuring Using the Transmission Simulator Method 2 Experimental-Analytical Substructure Model Sensitivity Analysis for Cutting Machine Chatter Prediction 3 Eliminating Indefinite Mass Matrices with the Transmission Simulator Method of Substructuring 4 Using Substructuring to Predict the Human Hand Influence on a Mechanical Structure 5 Simple Experiments to Validate Modal Substructure Models 6 Experimental Realization of System-Level Vibration by Use of Single Component Based on Virtual Boundary Condition Concept 7 An Introduction to the SEM Substructures Focus Group Test Bed - The Ampair 600 Wind Turbine 8 Modal Assessment of Wind Turbine Blade in Preparation of Experimental Substructuring 9 Comparison of Some Wind Turbine Blade Tests in Various Configurations 10 Consideration of Interface Damping in Dynamic Substructuring 11 Direct Hybrid Formulation for Substructure Decoupling 12 Substructuring with Nonlinear Subcomponents: A Nonlinear Normal Mode Perspective 13 An Effective Method for Assembling Impulse Response Functions to Linear and Non-linear Finite Element Models 14 Truncating the Impulse Responses of Substructures to Speed Up the Impulse-Based Substructuring 15 Application of Residual Vectors to Superelement Modeling of an Offshore Wind Turbine Foundation16 Demonstrating Predictive Capability of Validated Wind Turbine Blade Models 17 Towards the Experimental Assessment of NLBeam for Modeling Large Deformation Structural Dynamics 18 Wind Turbine Experimental Dynamic Substructure Development 19 Validation of a Finite Element Model Used for Dynamic Stress-Strain Prediction 20 Dynamic Stress-Strain on Turbine Blade Using Digital Image Correlation Techniques Part 1: Static Load and Calibration 21 Dynamic Stress-Strain on Turbine Blades Using Digital Image Correlation Techniques Part 2: Dynamic Measurements 22 Structural Health Monitoring of Wind Turbine Blades Under Fatigue Loads 23 Dynamic Characterization of Whisper 500 Turbine Blade 24 Developing a Finite Element Model in Conjunction with Modal Test for Wind Turbine Blade Models 25 Dynamic Stress-Strain Prediction from Limited Measurements in the Presence of Structural Defects 26 On the Mode Based Simulation of Dry Friction inside Lap Joints 27 Efficient Updating of Static Modes in the Craig-Bampton Reduction Basis 28 Comparison of CMS, Krylov and Balanced Truncation Based Model Reduction from a Mechanical Application Engineer's Perspective 29 Vertical Axis Wind Turbine Operational Modal Analysis in Sheared Wind Flow 30 Output-Only Estimation of Wind Induced Stresses in Structures 31 Modal Testing of 9 m CX-100 Turbine Blades.
