Chaos control for the plates subjected to subsonic flow
- Авторы: Norouzi H.1, Younesian D.1,2
- 
							Учреждения: 
							- School of Railway Engineering
- Department of Mechanical Engineering
 
- Выпуск: Том 21, № 4 (2016)
- Страницы: 437-454
- Раздел: Article
- URL: https://ogarev-online.ru/1560-3547/article/view/218340
- DOI: https://doi.org/10.1134/S1560354716040043
- ID: 218340
Цитировать
Аннотация
The suppression of chaotic motion in viscoelastic plates driven by external subsonic air flow is studied. Nonlinear oscillation of the plate is modeled by the von-Kármán plate theory. The fluid-solid interaction is taken into account. Galerkin’s approach is employed to transform the partial differential equations of the system into the time domain. The corresponding homoclinic orbits of the unperturbed Hamiltonian system are obtained. In order to study the chaotic behavior of the plate, Melnikov’s integral is analytically applied and the threshold of the excitation amplitude and frequency for the occurrence of chaos is presented. It is found that adding a parametric perturbation to the system in terms of an excitation with the same frequency of the external force can lead to eliminate chaos. Variations of the Lyapunov exponent and bifurcation diagrams are provided to analyze the chaotic and periodic responses. Two perturbation-based control strategies are proposed. In the first scenario, the amplitude of control forces reads a constant value that should be precisely determined. In the second strategy, this amplitude can be proportional to the deflection of the plate. The performance of each controller is investigated and it is found that the second scenario would be more efficient.
Ключевые слова
Об авторах
Hamed Norouzi
School of Railway Engineering
							Автор, ответственный за переписку.
							Email: h_norouzi@rail.iust.ac.ir
				                					                																			                												                	Иран, 							Tehran, 16846-13114						
Davood Younesian
School of Railway Engineering; Department of Mechanical Engineering
														Email: h_norouzi@rail.iust.ac.ir
				                					                																			                												                	Иран, 							Tehran, 16846-13114; Berkeley, Berkeley, CA, 94720						
Дополнительные файлы
 
				
			 
						 
					 
						 
						 
						 
									 
  
  
  
  
  Отправить статью по E-mail
			Отправить статью по E-mail  Открытый доступ
		                                Открытый доступ Доступ предоставлен
						Доступ предоставлен Только для подписчиков
		                                		                                        Только для подписчиков
		                                					