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Innovative Designs for Magneto-Rheological DampersPoynor, James Conner 14 August 2001 (has links)
Magnetorheological dampers, or as they are more commonly called, MR dampers, are being developed for a wide variety of applications where controllable damping is desired. These applications include dampers for automobiles, heavy trucks, bicycles, prosthetic limbs, gun recoil systems, and possibly others.
This thesis first introduces MR technology through a discussion of MR fluid and then by giving a broad overview of MR devices that are being developed. After giving the reader an understanding of MR technology and devices, MR damper basics are presented. This section includes a discussion of MR damper types, mathematical fundamentals, and an approach to magnetic circuit design.
With the necessary background information covered, MR dampers for automotive use are then discussed. Specifically, designs for MR dampers that were built for a Mercedes ML-430 and for a Ford Expedition are presented along with their respective test results. These test results are presented and compared with the original equipment hydraulic dampers.
After discussing automotive MR dampers, designs for gun recoil applications are presented. Specifically, two different MR damper designs are discussed along with live-fire test results for the first damper.
Finally, two hybrid dampers that were based on a modified adjustable hydraulic damper are presented. These hybrid dampers, if pursued further, may develop into controllable replacements for large hydraulic dampers such as those installed on large vehicles and field Howitzers. In conclusion, recommendations are made for materials as well as for seal selection and other design aspects. / Master of Science
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Nonlinear System Identification Using Neural NetworkArain, Muhammad Asif, Hultmann Ayala, Helon Vicente, Ansari, Muhammad Adil January 2012 (has links)
Magneto-rheological damper is a nonlinear system. In this case study, system has been identified using Neural Network tool. Optimization between number of neurons in the hidden layer and number of epochs has been achieved and discussed by using multilayer perceptron Neural Network.
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Nonlinear Mr Model Inversion for Semi-Active Control Enhancement With Open-Loop Force CompensationReader, Daniel Martin 09 June 2009 (has links)
The increased prevalence of semi-active control systems is largely due to the emergence of cost effective commercially available controllable damper technology such as Magneto-Rheological (MR) devices. Unfortunately, MR dampers exhibit highly nonlinear behavior, thus presenting an often over-looked complexity to the control system designer. With regards to controlling dampers, the well-known Skyhook Damping control algorithm has enjoyed great success for both fully active and semi-active control problems. The Skyhook design strategy is to create a control force that emulates what a passive linear damper would create when connected to an inertial reference frame. Skyhook control is device independent since it generates a desired control force command output that must be produced by the control system.
For simplicity, MR dampers are often assumed to have a linear relationship between the current input and the force output at a given relative velocity. Often this assumption is made implicitly and without knowledge of the underlying nonlinearity. This thesis shows that the overall performance of a semi-active Skyhook control system can be improved by explicitly inverting the nonlinear relationship between input current and output force. The proposed modification will work with any semi-active control algorithm, such as Skyhook, to insure that the controller performance is at least as good as the performance without the proposed modification. This technique is demonstrated through simulation on a quarter-vehicle system.
Hysteretic damping effects are incorporated into the modification by application of simple open loop force compensation. Laboratory testing of the hysteretic inversion process was performed with the goal of emulating an ideal linear damper without hysteresis. These results are compared with the implicit assumption thus providing a basis for validating the benefits of the improved methodology. / Master of Science
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Análise dinâmica não-linear de um sistema não-ideal, utilizando amortecedor magneto-reológico /Castão, Kléber Augusto Lisboa. January 2008 (has links)
Orientador: José Manoel Balthazar / Banca: Bento Rodrigues de Pontes Junior / Banca: Vicente Lopes Junior / Resumo: Nesta dissertação faz-se a análise da dinâmica não-linear de um sistema que possui preso a ele um motor de corrente contínua com potência limitada, onde são acoplados uma mola não linear e um amortecedor do tipo magneto-reológico (dispositivo que tem como fluído interno o fluído magneto-reológico). Com o objetivo de estudar e analisar a influência deste dispositivo na dinâmica do oscilador. Inicialmente apresenta-se uma breve descrição do tipo de problema estudado (sistemas não ideais) e uma revisão dos principais trabalhos que têm sido feitos tendo este dispositivo como foco de estudos. Apresentam-se os modelos utilizados para prever o comportamento destes dispositivos e também uma síntese de alguns modelos (mecânicos e matemáticos) mais elaborados e completos utilizados também para prever este comportamento. A partir daí é feita a apresentação do modelo que prevê o comportamento do amortecedor MR utilizado (modelo Bingham) e de uma suavização do mesmo, utilizada com o objetivo de melhorar o comportamento computacional do modelo inicial, junto a isso, apresenta-se a modelagem matemática do problema visando à obtenção das equações governantes do sistema. Faz-se então a análise do sistema durante a passagem pela ressonância (onde a freqüência de rotação do motor CC se aproxima numericamente e passa pela freqüência natural do sistema), analisando o efeito deste amortecedor durante esta passagem, analisa-se também a influência do dispositivo na evolução do Efeito Sommerfeld, um dos fenômenos intrínsecos desta classe de sistemas e também é feita uma analise do sistema em condições de movimento caótico também com o objetivo de prever o comportamento deste dispositivo, tudo isso é executado através da integração numérica das equações governantes do sistema. Para efeito de ilustração apresenta-se, também, uma pequena amostra do comportamento do sistema ideal paralelo ao estudado ... / Abstract: In this dissertation it made the analysis of the nonlinear dynamics of a system that possess to fixed it a direct-current motor with limited power, where is connected a damper of the type Magnetorheological (device that has as fluid intern the fluid Magnetorheological), with the objective to study and to analyze the influence of this device in the dynamics of the oscillator. Initially one brief description of the type of studied problem is presented (nonideal systems) and a revision of the main works that have been made having this device as focus of studies. The used models are presented to predict the behavior of these devices and also a synthesis of some models (mechanics and mathematicians) more elaborated and complete also used to predict this behavior. To continue this work, we present the model that predict the behavior of used MR damper (the Bingham Model) and a smoothing of the same, used with the objective to improve the computational behavior of the initial model and the mathematical modeling of the problem, together this, we show mathematical modeling of this problem aiming at to the attainment of the governing equations of the system. The analysis of the system it is made then during the passage for the resonance (where the frequency of DC motor it approaches numerically and crosses the natural frequency of the system), analyzing the effect of this damper during this passage, the influence of the device in the evolution of Sommerfeld Effect is also analyzed, one of the intrinsic phenomena of this classroom of systems and also is made a analyzes of the system in conditions of chaotic motions also with the objective to predict the behavior of this device, everything this is executed through the numerical integration of the governing equations of the system. For illustration effect it is presented, also, a small sample of the behavior of the parallel ideal system to the studied one, also with the presence of shock absorber MR, in the.. / Mestre
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Effect of Control Techniques on the Performance of Semiactive DampersMasi, John William 10 January 2002 (has links)
A computer simulation is used to examine the effects that various control methods have on the performance of semiactive dampers in controlling the dynamics of a single suspension (quarter car) model. The level of dynamic control of this model has a direct bearing on the ride comfort and vehicle handling, when the single suspension is interpreted as a partial model of a vehicle. The dynamic results obtained when using two alternative semiactive control methods are compared to the results obtained when using the more conventional control methods of passive damping, Skyhook control, and Hybrid control. The conventional control methods results confirm that the semiactive damper possesses a number of benefits when compared to passive damping. In addition, the alternative control methods, which are Displacement Skyhook and Displacement Hybrid, do not show benefits that are superior to passive damping or the conventional semiactive control methods.
In support of the conclusions of this report, sufficient detail of the mathematical and numerical model is provided in the event that one should wish to recreate the results presented here. Next, the simulation results of each of the five control methods are presented individually. Several of the responses used in the results chapters are the transmissibility plots for the sprung and unsprung body displacement, the frequency spectrum of acceleration, and the frequency spectrum of the rattle space. In addition, the system response to a step input is calculated and, lastly, time traces are calculated, one at a time, for system excitations at the sprung and unsprung mass natural frequencies. The key dynamic measures studied are settling times, displacements, accelerations, and jerks. The responses just listed are then used in a comparison study between each of the presented control methods. / Master of Science
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Análise dinâmica não-linear de um sistema não-ideal, utilizando amortecedor magneto-reológicoCastão, Kléber Augusto Lisboa [UNESP] 18 June 2008 (has links) (PDF)
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000563860.pdf: 2622089 bytes, checksum: e07ff1d0d497a33adaec5ce6119b0e03 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Nesta dissertação faz-se a análise da dinâmica não-linear de um sistema que possui preso a ele um motor de corrente contínua com potência limitada, onde são acoplados uma mola não linear e um amortecedor do tipo magneto-reológico (dispositivo que tem como fluído interno o fluído magneto-reológico). Com o objetivo de estudar e analisar a influência deste dispositivo na dinâmica do oscilador. Inicialmente apresenta-se uma breve descrição do tipo de problema estudado (sistemas não ideais) e uma revisão dos principais trabalhos que têm sido feitos tendo este dispositivo como foco de estudos. Apresentam-se os modelos utilizados para prever o comportamento destes dispositivos e também uma síntese de alguns modelos (mecânicos e matemáticos) mais elaborados e completos utilizados também para prever este comportamento. A partir daí é feita a apresentação do modelo que prevê o comportamento do amortecedor MR utilizado (modelo Bingham) e de uma suavização do mesmo, utilizada com o objetivo de melhorar o comportamento computacional do modelo inicial, junto a isso, apresenta-se a modelagem matemática do problema visando à obtenção das equações governantes do sistema. Faz-se então a análise do sistema durante a passagem pela ressonância (onde a freqüência de rotação do motor CC se aproxima numericamente e passa pela freqüência natural do sistema), analisando o efeito deste amortecedor durante esta passagem, analisa-se também a influência do dispositivo na evolução do Efeito Sommerfeld, um dos fenômenos intrínsecos desta classe de sistemas e também é feita uma analise do sistema em condições de movimento caótico também com o objetivo de prever o comportamento deste dispositivo, tudo isso é executado através da integração numérica das equações governantes do sistema. Para efeito de ilustração apresenta-se, também, uma pequena amostra do comportamento do sistema ideal paralelo ao estudado ... / In this dissertation it made the analysis of the nonlinear dynamics of a system that possess to fixed it a direct-current motor with limited power, where is connected a damper of the type Magnetorheological (device that has as fluid intern the fluid Magnetorheological), with the objective to study and to analyze the influence of this device in the dynamics of the oscillator. Initially one brief description of the type of studied problem is presented (nonideal systems) and a revision of the main works that have been made having this device as focus of studies. The used models are presented to predict the behavior of these devices and also a synthesis of some models (mechanics and mathematicians) more elaborated and complete also used to predict this behavior. To continue this work, we present the model that predict the behavior of used MR damper (the Bingham Model) and a smoothing of the same, used with the objective to improve the computational behavior of the initial model and the mathematical modeling of the problem, together this, we show mathematical modeling of this problem aiming at to the attainment of the governing equations of the system. The analysis of the system it is made then during the passage for the resonance (where the frequency of DC motor it approaches numerically and crosses the natural frequency of the system), analyzing the effect of this damper during this passage, the influence of the device in the evolution of Sommerfeld Effect is also analyzed, one of the intrinsic phenomena of this classroom of systems and also is made a analyzes of the system in conditions of chaotic motions also with the objective to predict the behavior of this device, everything this is executed through the numerical integration of the governing equations of the system. For illustration effect it is presented, also, a small sample of the behavior of the parallel ideal system to the studied one, also with the presence of shock absorber MR, in the..
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