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lacarbonara walter (curatore); balachandran balakumar (curatore); ma jun (curatore); tenreiro machado j. a. (curatore); stepan gabor (curatore) - nonlinear dynamics of structures, systems and devices

Nonlinear Dynamics of Structures, Systems and Devices Proceedings of the First International Nonlinear Dynamics Conference (NODYCON 2019), Volume I

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Dettagli

Genere:Libro
Lingua: Inglese
Editore:

Springer

Pubblicazione: 01/2020
Edizione: 1st ed. 2020





Trama

This first of three volumes from the inaugural NODYCON, held at the University of Rome, in February of 2019, presents papers devoted to Nonlinear Dynamics of Structures, Systems and Devices. The collection features both well-established streams of research as well as novel areas and emerging fields of investigation. Topics in Volume I include multi-scale dynamics: coexistence of multiple time/space scales, large system dynamics; dynamics of structures/industrial machines/equipment/facilities (e.g., cable transportation systems, suspension bridges, cranes, vehicles);  nonlinear interactions: parametric vibrations with single/multi-frequency excitations, multiple external and autoparametric resonances in multi-dof systems;  nonlinear system identification: parametric/nonparametric identification, data-driven identification; experimental dynamics: benchmark experiments, experimental methods, instrumentation techniques, measurements in harsh environments, experimental validation of nonlinear models; wave propagation, solitons, kinks, breathers; solution methods for pdes: Lie groups, Hirota’s method, perturbation methods, etc; nonlinear waves in media (granular materials, porous materials, materials with memory); composite structures: multi-layer, functionally graded, thermal loading; fluid/structure interaction; nonsmooth and retarded dynamics: systems with impacts, free play, stick-slip, friction hysteresis; nonlinear systems with time and/or space delays; stability of delay differential equations, differential-algebraic equations; space/time reduced-order modeling: enhanced discretization methods, center manifold reduction, nonlinear normal modes, normal forms; fractional-order systems; computational techniques: efficient algorithms, use of symbolic manipulators, integration of symbolic manipulation and numerical methods, use of parallel processors; and multibody dynamics: rigid and flexible multibody system dynamics, impact and contact mechanics, tire modeling, railroad vehicle dynamics, computational multibody dynamics.





Sommario

Part A: Methods for nonlinear dynamics
1. Nonlinear dynamics of multibody systems using an augmented Lagrangian formulation
2. Stability boundary approximation of periodic dynamics
3. e2-order normal form analysis for a two-degree-of-freedom nonlinear coupled oscillator
4. Vibrational mechanics of systems with amplitude and phase modulation of excitation
5. Singular perturbation techniques and asymptotic expansions for some complex enzyme reactions
6. A novel two-stage ellipsoid filtering based system modeling algorithm for a Hammerstein nonlinear model with an unknown noise term
7. A new method for the frequency response curve and its unstable region of a strongly nonlinear oscillator
8. Matrix solitons solutions of the modified Korteweg-de Vries equation

Part B: Bifurcations and nonsmooth systems
9. Bifurcations of limit directions at codimension-2 discontinuities of vector fields
10. Boundary layer dynamics of multibody systems involving impact and friction
11. Creation of Neimark-Sacker bifurcation for a three-degree-of-freedom vibro-impact system with clearances
12. Analogue models of rocking suitcases and snaking trailers
13. A theoretical model for vibro-impact dynamics of spur gears with tooth flanks wear
14. Stability of coupled and damped Mathieu equations utilizing symplectic properties
15. Asymmetry in the basin stability of oscillation death states under variation of environment-oscillator links
16. The occurrence of zero-Hopf bifurcation in a generalized Sprott A system
Part C: Nonlinear phenomena in mechanical systems and structures
17. External and internal resonances in a mass-spring-damper system with 3-dof
18. Internal resonances in an imperfect circular cylindrical panel
19. Weakly nonlinear liquid sloshing-modelling and exploration of response regimes
20. Catenary-based nonlinear multimodal theory of cable free vibrations
21. Flexural and sway interaction in the nonlinear vibrations of a phenomenological model of a laterally braced column
22. Influences of temperature on dynamic behaviors of suspended cables under primary and sub-harmonic excitations simultaneously
23. Analysis of a shape memory Alloy spring system  under harmonic excitation
24. Vibration of pre-loaded shallow circular arches
25. Nonlinear vibration responses of laminated composite cantilever plate in subsonic air flow
26. Adaptation of energy dissipation in a laminated module with tunable twin wells
27. The Duffing-Mathieu equation arising from dynamics of post-buckled beams
28. Resonance-induced energy localization in weakly dissipative anharmonic chains

Part D: Experimental dynamics, system Identification and monitoring
29. Torsional analysis of transmission line cables
30. Application of a stochastic version of the restoring force surface method to identify a Duffing oscillator
31. Modeling of the hysteretic behavior of wire rope isolators using a novel rate-independent model
32. A non-linear model of rubber shear springs validated by experiments
33. Operational modal analysis on a six-degree-of-freedom parallel manipulator: reproducibility, excitation & pose dependency
34. Shaking table investigation on the masonry structures behaviour to earthquakes with strong vertical component
35. Quantifying rate dependence of a nonlinear hysteretic device
36. Application of photoelasticity to some nonlinear dynamic problems and stress state analysis in dams: A brief overview inspired by the results of Prof. Vlatko Brcic

Part E: Fluid-structure interaction, multibody system dynamics
37. Levitated and parametrically excited sphere dynamics in a single-axis ultrasonic levitator
38. Modelling VIV of transversally oscillating rigid structures using nonlinear fluid oscillators
39. Asymptotic analysis of a dynamical system for vortex-induced vibration and galloping
40. A quasi-steady 3-DoFs sectional aerodynamic model: preliminary results
41. Lie group dynamics of multibody system in vortical fluid flow
42. Damping models in aircraft flutter analyses
43. Dynamic response of a morphing wing
44. Helicopter pilot biomechanics by multibody analysis
45. Derivation of non-dimensional equation of motion for thin plate in absolute nodal coordinate formulation

Part F: Turning Processes, Rotating Systems, and Systems with Time Delays
46. Approximated dynamics of chatter in turning processes
47. Chaotic dynamics in spinning shafts with non-constant rotating speed described by variant Lyapunov exponents
48. Backward Whirl Phenomena in a Jeffcott Rotor System with a Breathing Crack Model
49. Proper and Smooth Orthogonal Decompositions for Detection of Inner Race Defects in Rolling Element Bearings with Variable Rotational Speeds
50. Effect of the compliance of the part on the double-turning process
51. Effect of the regenerative and frictional force on chatter in turning process
52. Noise-induced transitions and resonances in a delayed triple-well potential system
53. Application of the second dimension reduction method in nonlinear rotor dynamic system
54. Vibration analysis of washing machines in the drum plane
55. Nonlinear model for wear effects in hydrodynamic bearings applied to rotating systems
Index




Autore

Walter Lacarbonara earned his MS in Engineering Mechanics from Virginia Tech and his PhD in Structural Dynamics from Sapienza University of Rome where he is currently a Professor of Structural Mechanics. He works on projects supported by AFOSR, NSF, MIUR, EU. He served as co-Chair of the 2015 ASME IDETC (Boston), Chair of NODYCON 2019 (Rome, Italy), Chair of the ASME Technical Committee Multibody Systems and Nonlinear Dynamics (2017-2019). He is Editor in Chief of Nonlinear Dynamics (Springer Nature). He has published a Springer book entitled “Nonlinear Structural Mechanics. Theory, Modeling, Dynamic Phenomena” (2013), 250 publications, and 3 international patents. His research interests include nonlinear structural dynamics; exact modeling of cables/beams/plates/shells; asymptotics; experimental nonlinear dynamics; nonlinear control of vibrations; carbon nanotube nanocomposites.


Gabor Stepan received his degrees at Budapest University of Technology and Economics and is a professor of Applied Mechanics there. He is member of the Hungarian Academy of Sciences and the Academy of Europe. He is ERC Advanced Grant holder and the recipient of the Thomas K. Caughey Dynamics Award of ASME. He was the head of the Department of Applied Mechanics at BME, served as the dean of the Faculty of Mechanical Engineering. He is an elected member of the Executive Committee of the Congress Committee of IUTAM, and serves as a member in Euromech Council. Research interests include nonlinear vibrations and time-delay systems with applications in mechanical engineering: dynamics of elastic wheels, vibrations of robots, force control, human and robotic balancing, rehabilitation robotics, machine tool vibrations, traffic dynamics, hardware-in-the-loop experiments.

 

Dr. Balachandran received his Ph.D. (Engineering Mechanics) from Virginia Tech.  Currently, he is a Minta Martin Professor of Engineering at the University of Maryland, where he has been since 1993. His research interests include nonlinear phenomena, dynamics and vibrations, and control. The publications that he has authored/co-authored include a Wiley textbook entitled "Applied Nonlinear Dynamics:  Analytical,   Computational,   and   Experimental   Methods"   (1995,   2006),  a Cambridge University Press textbook entitled "Vibrations" (2019), and a co-edited Springer book entitled “Delay Differential Equations: Recent Advances and New Directions” (2009). Currently, he serves as the Editor of the ASME Journal of Computational and Nonlinear Dynamics.  He is a Fellow of ASME and AIAA. 


Jun Ma earned his PhD in Physics from Huazhong Normal University, China. He is currently a Professor in the Department of Physics of Lanzhou University of Technology. His research interests cover topics on nonlinear physics, model setting and computational neuroscience.

 

J. A. Tenreiro Machado was born in 1957. He graduated with ‘Licenciatura’ (1980), PhD. (1989) and ‘Habilitation’ (1995), in Electrical and Computer Engineering at the University of Porto. Between 1980 and 1998 he worked at the Dept. of Electrical and Computer Engineering of the University of Porto. Since 1998 he has been working at the Institute of Engineering, Polytechnic Institute of Porto. Presently he is Principal Coordinator Professor at the Dept. of Electrical Engineering. His research interests include: complex systems, nonlinear dynamics, fractional calculus, entropy, control, data series analysis, biomathematics, evolutionary computing, genomics, and robotics and mechatronics.











Altre Informazioni

ISBN:

9783030347123

Condizione: Nuovo
Dimensioni: 235 x 155 mm Ø 1371 gr
Formato: Copertina rigida
Illustration Notes:XXVIII, 592 p. 250 illus., 204 illus. in color.
Pagine Arabe: 592
Pagine Romane: xxviii


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