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Author: Gaetan Kerschen Publisher: Springer ISBN: 3709117917 Category : Technology & Engineering Languages : en Pages : 346
Book Description
The book first introduces the concept of nonlinear normal modes (NNMs) and their two main definitions. The fundamental differences between classical linear normal modes (LNMs) and NNMs are explained and illustrated using simple examples. Different methods for computing NNMs from a mathematical model are presented. Both advanced analytical and numerical methods are described. Particular attention is devoted to the invariant manifold and normal form theories. The book also discusses nonlinear system identification.
Author: Gaetan Kerschen Publisher: Springer ISBN: 3709117917 Category : Technology & Engineering Languages : en Pages : 346
Book Description
The book first introduces the concept of nonlinear normal modes (NNMs) and their two main definitions. The fundamental differences between classical linear normal modes (LNMs) and NNMs are explained and illustrated using simple examples. Different methods for computing NNMs from a mathematical model are presented. Both advanced analytical and numerical methods are described. Particular attention is devoted to the invariant manifold and normal form theories. The book also discusses nonlinear system identification.
Author: Gaetan Kerschen Publisher: Springer Science & Business Media ISBN: 3319045229 Category : Technology & Engineering Languages : en Pages : 314
Book Description
This second volume of eight from the IMAC - XXXII 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 Structural Dynamics, including papers on: Linear Systems Substructure Modelling Adaptive Structures Experimental Techniques Analytical Methods Damage Detection Damping of Materials & Members Modal Parameter Identification Modal Testing Methods System Identification Active Control Modal Parameter Estimation Processing Modal Data
Author: Gaetan Kerschen Publisher: Springer ISBN: 3319297392 Category : Technology & Engineering Languages : en Pages : 414
Book Description
Nonlinear Dynamics, Volume 1. Proceedings of the 34th IMAC, A Conference and Exposition on Dynamics of Multiphysical Systems: From Active Materials to Vibroacoustics, 2016, the fi rst volume of ten from the Conference, brings together contributions to this important area of research and engineering. Th e collection presents early fi ndings and case studies on fundamental and applied aspects of Structural Dynamics, including papers on: • Nonlinear Oscillations • Nonlinear Modal Analysis • Nonlinear System Identifi cation • Nonlinear Modeling & Simulation • Nonlinearity in Practice • Nonlinearity in Multi-Physics Systems • Nonlinear Modes and Modal Interactions
Author: Gaetan Kerschen Publisher: Springer ISBN: 303012391X Category : Science Languages : en Pages : 271
Book Description
Nonlinear Structures & Systems, Volume 1: Proceedings of the 37th IMAC, A Conference and Exposition on Structural Dynamics, 2019, the first volume of eight 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: Nonlinear Reduced-order Modeling Jointed Structures: Identification, Mechanics, Dynamics Experimental Nonlinear Dynamics Nonlinear Model & Modal Interactions Nonlinear Damping Nonlinear Modeling & Simulation Nonlinearity & System Identification
Author: Gaëtan Kerschen Publisher: Springer ISBN: 3319152211 Category : Technology & Engineering Languages : en Pages : 521
Book Description
Nonlinear Dynamics, Volume 1. Proceedings of the 33rd IMAC, A Conference and Exposition on Balancing Simulation and Testing, 2015, 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 Structural Dynamics, including papers on: Nonlinear Oscillations Nonlinear Simulation Using Harmonic Balance Nonlinear Modal Analysis Nonlinear System Identification Nonlinear Modeling & Simulation Nonlinearity in Practice Nonlinear Systems Round Robin on Nonlinear System Identification.
Author: Nuno Manuel Mendes Maia Publisher: Wiley-Blackwell ISBN: 9780863802089 Category : Modal analysis Languages : en Pages : 468
Book Description
Modal analysis is a discipline that has developed considerably during the last 30 years. Theoretical and Experimental Modal Analysis is a new book on modal analysis aimed at a wide range of readers, from academics such as post-graduate students and researchers, to engineers in many industries who use modal analysis tools and need to improve their knowledge of the subject. Divided into eight chapters, the book ranges from the basics of vibration theory and signal processing to more advanced topics, including identification techniques, substructural coupling, structural modification, updating of finite element models and nonlinear modal analysis. There is also an entire chapter dedicated to vibration testing techniques. It has been written with a diversity of potential readers in mind, so that all will be able to follow the book easily and assimilate the concepts involved.
Author: Shung Sung Publisher: Springer Nature ISBN: 3031796896 Category : Technology & Engineering Languages : en Pages : 110
Book Description
This book describes the Asymptotic Modal Analysis (AMA) method to predict the high-frequency vibroacoustic response of structural and acoustical systems. The AMA method is based on taking the asymptotic limit of Classical Modal Analysis (CMA) as the number of modes in the structural system or acoustical system becomes large in a certain frequency bandwidth. While CMA requires both the computation of individual modes and a modal summation, AMA evaluates the averaged modal response only at a center frequency of the bandwidth and does not sum the individual contributions from each mode to obtain a final result. It is similar to Statistical Energy Analysis (SEA) in this respect. However, while SEA is limited to obtaining spatial averages or mean values (as it is a statistical method), AMA is derived systematically from CMA and can provide spatial information as well as estimates of the accuracy of the solution for a particular number of modes. A principal goal is to present the state-of-the-art of AMA and suggest where further developments may be possible. A short review of the CMA method as applied to structural and acoustical systems subjected to random excitation is first presented. Then the development of AMA is presented for an individual structural system and an individual acoustic cavity system, as well as a combined structural-acoustic system. The extension of AMA for treating coupled or multi-component systems is then described, followed by its application to nonlinear systems. Finally, the AMA method is summarized and potential further developments are discussed.
Author: Alexander F. Vakakis Publisher: Springer Science & Business Media ISBN: 3709102057 Category : Technology & Engineering Languages : en Pages : 307
Book Description
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.
Author: Jayantheeswar Venkatesh Publisher: ISBN: Category : Languages : en Pages :
Book Description
"In structural dynamics, autonomous conservative systems commonly exhibit continuous families of periodic orbits in the phase space, usually known as modes of vibration. The main task of modal analysis is to accurately compute natural frequencies and corresponding mode shapes of vibratory mechanical systems as they are known, at least in a linear context, to properly predict the conditions under which the associated periodically forced and slightly damped systems will resonate.Characterizing the modes of vibration of nonlinear yet smooth mechanical systems (systems governed by ordinary or partial differential equations that are smooth with respect to the unknown displacement and velocity) is a current topic of interest in the industrial and academic spheres. Many useful tools, such as the Finite Element Method (FEM), the Harmonic Balance Method (HBM), the continuation techniques and the Frequency--Energy Plots (FEP) provide great assistance in understanding the modal dynamics. Theoretical as well as numerical issues arise when extending these tools to nonsmooth problems such as unilateral contact formulations. The dynamics of two impacting bodies is characterized by travelling waves emanating from the contact interface. In the one-dimensional setting, chosen in this work, these waves couple time and space, in the sense that they are functions of the form f(x+ct) or f(x-ct) where c is the wave velocity. Uncoupling time t and space x leads to numerical and theoretical issues. In FEM, the displacement commonly takes the form u(x,t)= \sum_i \phi_i(x) u_i(t), where u_i(t) is the i-th displacement participation and \phi_i(x), the corresponding shape function. This leads to spurious oscillations, dispersion, and energy dissipation, for most numerical schemes dealing with unilateral contact conditions. Additionally, an impact law is required to uniquely describe the time-evolution of a space semi-discretized formulation. The impact law should be purely elastic to preserve energy, making it difficult to describe lasting contact phases which are expected in the continuous framework. Time-Domain Boundary Element Medthod (TD-BEM) which appropriately combines space and time seems promising as it uses Green's functions that are travelling waves.In this work, unilateral contact conditions are considered for a one-dimensional bar system clamped on one end and undergoing a complementarity condition on the other end. The complementarity form is dealt with as a switch between Dirichlet and Neumann boundary conditions. In dynamics, the solution can thus be retrieved through time marching using TD-BEM with a switch between fixed state when it is in contact and free when it is released. In vibration analysis of autonomous systems, periodic solutions are sought to obtain the mode shapes of the system. In this thesis, TD-BEM presumes the existence of periodic solutions and shooting is employed to find the initial conditions that lead to the assumed periodic solutions. Backbone curves in frequency-energy are constructed via continuation. Existing analytical solutions serve as references for validating the suggested scheme. TD-BEM does not numerically dissipate energy unlike FEM and properly captures wave fronts as expected. The proposed formulation is capable of capturing main, subharmonic as well as internal resonance backbone curves known to emerge in nonlinear dynamics. For the system of interest, the main and subharmonic mode shapes are piecewise-linear function in space and time, as opposed to the linear mode shapes that are half sine waves in space and full sine waves in time." --
Author: Gaetan Kerschen
Author: Gaetan Kerschen
Author: Gaetan Kerschen
Author: Gaetan Kerschen
Author: Gaetan Kerschen
Author: Gaëtan Kerschen
Author: Ghassan Jamil Aboujaoude
Author: Nuno Manuel Mendes Maia
Author: Shung Sung
Author: Alexander F. Vakakis
Author: Jayantheeswar Venkatesh