Nonlinear Structures & Systems, Volume 1: Proceedings of the 42nd IMAC, A Conference and Exposition on Structural Dynamics, 2024, the first volume of ten from the Conference brings together contributions to this important area of research and engineering. The collection presents early findings and case studies on fundamental and applied aspects of Nonlinear Dynamics, including papers on:
Experimental Nonlinear Dynamics Jointed Structures: Identification, Mechanics, Dynamics Nonlinear Damping Nonlinear Modeling and Simulation Nonlinear Reduced-Order Modeling Nonlinearity and System Identification.
Preface, Experimental Bifurcation Forecasting Using the Transient
Response of an Airfoil in a Wind Tunnel, Challenges in Simulating the Forced
Vibration Response of Assembled Space Structures, The Impact of Nonunique
Residual Tractions on the Nonlinear Dynamics of Jointed Structures:
Probabilistic Perspectives, Identifying Localised Nonlinearities: Nonlinear
Restoring Force Surface in Piecewise Multi-degree[ 1]of-freedom Systems,
Incorporating Implicit Condensation into Data-Driven Reduced-Order Models for
Nonlinear Structures, Nonlinear Behaviour in Flexible, Large-Scale Space
Structures: Dynamics and Control, A Harmonic Balance-Based Tracking Procedure
for Amplitude Resonances, A Tutorial on Nonlinear Model Order Reduction,
Reduced Order Modeling Research Challenge 2023: Nonlinear Dynamic Response
Predictions for an Exhaust Cover Plate, More than Joints: Prof. Lothar Gauls
Contributions to IMAC, Effects of Nonunique Residual Traction on the
Non-repeatability of the Dynamics of Jointed Structures, Explanation for
Oscillating Backbone Curves Based on Fractional Spectral Submanifolds,
Techniques for Systems with Frictional Contacts Within the Scope of the
Harmonic Balance Method, Analyzing Nonlinear Structures with Random
Excitation Using Integral Quadratic Constraints, Nonlinear Normal Modes of
Highly Flexible Beam Structures Modelled Under the SE(2) Lie Group Framework,
Extension and Experimental Verification of an Efficient Re-analysis Method
for Modified Nonlinear Structures, Modeling Nonlinear Beam Vibrations: A
Comparison Between Classical and Data-Driven Approaches, Nonlinear System
Identification with Multiple Data Sets for Structures with Bolted Joints,
Nonlinear Vibration Analysis of a Two-Blade System with Shroud-to-Shroud
Contact by Using Response-Dependent Nonlinear Normal Modes, Evaluating New
Nonlinear System Identification Methods on Curved Beams, Numerical
Investigation of a Reluctance Force Shunt Damping System, On the Use of the
Generating Series for the Impulse Response of Duffings Equation, Effect of
Loss Functions on the Learning Capabilities of Physics-Informed Neural
Networks in Mechanical Systems, Dynamic Response of Damping Estimation of
Layered Plate Systems Under Shock Loading.
Matthew R.W. Brake, Mechanical Engineering, MS-321, Rice University, Houston, USA. Ludovic Renson, Department of Mechanical Engineering, Imperial College London, LONDON, UK. Robert J. Kuether, Bldg 898, Rm 2740, Albuquerque, USA. Paolo Tiso, D-MAVT, LEE Building, Room LEE M205, ETH Zürich, Zürich, Switzerland.
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