Análise de desempenho de suspensões semi-ativas dotadas de amortecedores magnetoreológicos /

Lagoin, Thiago Galbiati

January 2017

Orientador: Gustavo Luiz Chagas Manhães de Abreu / Resumo: Fluidos magnetoreológicos (MR) são fluidos capazes de alterar suas propriedadesreológicas quando um campo magnético é aplicado sobre ele. Uma das aplicações maisimportantes do fluido MR é em amortecedores de vibrações, utilizados principalmente naconstrução civil, veículos automotivos e outros sistemas mecânicos sujeitos a excitaçõesque provocam vibrações indesejáveis. Na indústria automobilística, atualmente atecnologia dos amortecedores que utilizam fluido MR vem se destacando como umasolução que pode trazer benefícios de conforto e segurança aos usuários de veículos emgeral. Este trabalho discute a modelagem não-linear de um veículo que considera adinâmica vertical, lateral e longitudinal, simulado em diferentes condições de conduçãoque buscam avaliar o conforto, a aderência à estrada, a dirigibilidade, a rolagem e adeflexão da suspensão. Pretende, também, contribuir com a área de controle de vibraçõesem suspensões veiculares que utilizam amortecedores MR, avaliando o desempenho doscontroladores ótimo (LQR), nebuloso e FEB (Frequency-Estimation-Based ) projetadosem 1/4 de veículo e aplicados ao modelo não-linear do veículo. O trabalho terminacomentando as potencialidades da metodologia apresentada, discutindo as facilidadese dificuldades encontradas na sua implementação e aponta propostas para a suacontinuidade. / Doutor

Controle semi-ativo

Suspensões veiculares

Amortecedores magnetoreológicos

Semi-active control

Vehicular suspensions

Magnetorheological dampers

Análise de desempenho de suspensões semi-ativas dotadas de amortecedores magnetoreológicos / Performance evaluation of semi-active suspensions with magnetoreological dampers

Lagoin, Thiago Galbiati [UNESP]

28 September 2017

Submitted by THIAGO GALBIATI LAGOIN null (thiagolagoin@yahoo.com.br) on 2017-10-26T18:00:51Z No. of bitstreams: 1 lagoin_tg_dr_ilha.pdf: 10803891 bytes, checksum: 11fc5487a11d931ddaa2432fe578288e (MD5) / Approved for entry into archive by Monique Sasaki (sayumi_sasaki@hotmail.com) on 2017-10-31T18:40:57Z (GMT) No. of bitstreams: 1 lagoin_tg_dr_ilha.pdf: 10803891 bytes, checksum: 11fc5487a11d931ddaa2432fe578288e (MD5) / Made available in DSpace on 2017-10-31T18:40:57Z (GMT). No. of bitstreams: 1 lagoin_tg_dr_ilha.pdf: 10803891 bytes, checksum: 11fc5487a11d931ddaa2432fe578288e (MD5) Previous issue date: 2017-09-28 / Fluidos magnetoreológicos (MR) são fluidos capazes de alterar suas propriedades reológicas quando um campo magnético é aplicado sobre ele. Uma das aplicações mais importantes do fluido MR é em amortecedores de vibrações, utilizados principalmente na construção civil, veículos automotivos e outros sistemas mecânicos sujeitos a excitações que provocam vibrações indesejáveis. Na indústria automobilística, atualmente a tecnologia dos amortecedores que utilizam fluido MR vem se destacando como uma solução que pode trazer benefícios de conforto e segurança aos usuários de veículos em geral. Este trabalho discute a modelagem não-linear de um veículo que considera a dinâmica vertical, lateral e longitudinal, simulado em diferentes condições de condução que buscam avaliar o conforto, a aderência à estrada, a dirigibilidade, a rolagem e a deflexão da suspensão. Pretende, também, contribuir com a área de controle de vibrações em suspensões veiculares que utilizam amortecedores MR, avaliando o desempenho dos controladores ótimo (LQR), nebuloso e FEB (Frequency-Estimation-Based ) projetados em 1/4 de veículo e aplicados ao modelo não-linear do veículo. O trabalho termina comentando as potencialidades da metodologia apresentada, discutindo as facilidades e dificuldades encontradas na sua implementação e aponta propostas para a sua continuidade. / Magnetorheological fluids (MR) are capable of changing their rheological properties when a magnetic field is applied. One of the most important applications of the MR fluid is in vibration dampers, mainly used in construction, automobiles and other mechanical systems subjected to excitations that cause unwanted vibrations. In the automotive industry, nowadays the technology of dampers using MR fluid has emerged as a solution which can bring benefits of comfort and safety to overall vehicle users. This work discusses the non-linear modeling of a vehicle which considers the vertical, lateral and longitudinal dynamics, simulated in different driving conditions aiming evaluate the comfort, the road holding, the handling, the roll and the suspension deflection. It also aims to contribute to the field of vibration control in vehicular suspensions that use magnetoreological dampers, evaluating the performance of controllers optimal (LQR), fuzzy and FEB (Frequency-Estimation-Based ) designed in 1/4 of vehicle and applied to the non-linear model of the vehicle. This work is concluded presenting the potentialities of the design methodology proposed and future developments to be implemented.

Controle semi-ativo

Suspensões veiculares

Amortecedores magnetoreológicos

Semi-active control

Vehicular suspensions

Magnetorheological dampers

Analýza možností aktivního tlumení pro dopravní prostředky / Analysis of potential active damping for vehicles

Svoboda, Jakub

January 2011

Diploma thesis deals with the issue of active and semi-active damping and its possible applications in the context of vehicles. The beginning of the document is focused on the actual state, major applications and patents in the field. As each of the individual ways of usage is relatively specific, the next part is aimed particularly at the damping unit of bicycle. Given the choice, real measurements and simulations were made in order to verify the applicability of such a device in practice.

Semiaktivní systém odpružení vozidla / Vehicle Semi-active SuspensionSystem

Salcburger, Martin

January 2016

The aim of this diploma thesis is to design algorithms of semi-active suspension system for a quarter car model, compare their function with respect to ride comfort and drive safety. Consequently, setup control algorithms for using in the Adams software. The result of this thesis should be to determine the effect of semi-active suspension control system on vehicle behavior.

Enhancement of Functionality of Structures Using Isolation and Semi-Active Control in Consideration of Performance of Furniture and Appliances / 家具・機器の挙動を考慮した構造物の機能性向上をめざした免震とセミアクティブ制振

Shi, Yundong

24 September 2013

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第17883号 / 工博第3792号 / 新制||工||1580(附属図書館) / 30703 / 京都大学大学院工学研究科建築学専攻 / (主査)教授 中島 正愛, 教授 川瀬 博, 教授 竹脇 出 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Furniture and Appliances

Base Isolation

Semi-Active Control

LQR control

Frequency-dependent

500

Numerical and Experimental Analyses of Actively Controlled Pendulum Tuned Mass Damper

Juma, Hameed W.

January 2018

No description available.

Mechanical Engineering

Semi-Active Control of Air-Suspended Tuned Mass Dampers

Alhujaili, Fahad Abdulrahman

January 2012

No description available.

Mechanical Engineering

Semi-active Control

TMD

Air spring

Vibration

air-suspended

stiffness

Damping

An Advanced Controller for a Semi-active Wheelchair Suspension

Smith, David J

01 January 2011

An Advanced Controller for a Semi-Active Wheelchair Suspension was designed, built and tested. The suspension consisted of a Goodyear 1S3-011 air spring, IQ Valves high speed proportional solenoid valve, and a custom made accumulator. Several controller designs specific to semi-active suspensions were designed and tested. The controllers investigated were skyhook, acceleration driven damping, and a combined control law employing both a dual and single sensor version. The implementation of skyhook control suffered performance degradation from the idealization due to particular elements of hardware, however acceleration driven damping showed a marked and statistically significant improvement over skyhook control, in hardware, by 14%. The combined control laws exhibited as yet unexplained transient behavior that produced results with low confidence in their veracity. All controllers proposed performed better than a conventional oil damper and spring type suspension.

controls

control theory

semi-active suspension

skyhook

acceleration driven damping

Acoustics, Dynamics, and Controls

Modeling, Development and Experimental Validation of different Control Strategies for a Double-Damper Semi-Active Suspension System

Shrikanthan, Sudarshan

16 February 2024

Vehicle Suspension is an important sub-system in an automobile as it is directly related to the subjective qualities of ride comfort that the passengers perceive. A vehicle suspension works by insulating the driver and the passengers from the irregularities of the road. Moreover, a suspension is required to ensure the tires properly contact the surface for adequate traction. This study aims to analyze whether a damper that is made out of two individual dampers joined together can be used to provide better ride comfort and better road handling with appropriate control strategies and if this damper can work more effectively than a single semi-active damper / Master of Science / A car's suspension is crucial for a smooth ride and passenger comfort, as it absorbs bumps and keeps your tires in contact with the road. This research looks at a new type of shock absorber made of two connected parts to see if it improves ride comfort and handling compared to the traditional single shock absorber. We'll explore how this new design, along with smart control methods, might make driver and passenger comfort better.

semi-active

controls

suspension

dampers

double-damper

ADD

PID control

testing

Frequency Domain

Experimental

damper

WAVELET-BASED ADAPTIVE CONTROL OF STRUCTURES UNDER SEISMIC AND WIND LOADS

Kim, Hongjin

20 December 2002

No description available.

Engineering, Civil

wavelets

structural control

semi-active control

hybrid control

bridge control