Shock absorbers and dampeners eliminate bumpsHydraulics & pneumatics. 1998, Vol 51, Num 11, pp 48-51, issn 0018-814X, 80 [4 p.]Article

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Study on an oil damper with a variable damping mechanism (dynamic characteristics of a damper with a piston having a fan-shaped orifice)ASAMI, T; SEKIGUCHI, H.JSME International journal. Series 3, Vibration, control engineering, engineering for industry. 1988, Vol 31, Num 2, pp 370-379Article

MR fluid sponge devices and their use in vibration control of washing machinesCHRZAN, Michael J; CARLSON, J. David.SPIE proceedings series. 2001, pp 370-378, isbn 0-8194-4017-5Conference Paper

Etude de l'écoulement et de la répartition des pressions au voisinage du piston d'un amortisseur hydraulique = Study of flow and pressure distribution near the hydraulic damper pistonLE, P; COMOLET, R.Revue de physique appliquée. 1989, Vol 24, Num 7, pp 761-771, issn 0035-1687, 11 p.Article

Modélisation d'un amortisseur hydraulique = Numerical modelling of an hydraulic damperBOICHOT, P.Mécanique industrielle et matériaux. 1998, Vol 51, Num 2, pp 83-85, issn 1244-9091Conference Paper

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Protection machines : Amortisseurs et absorbeurs de chocs = Machine protection: shock damper and absorberEntrainements & systèmes. 1998, Vol 31, Num 4, pp 25-28, issn 0765-006XArticle

Schwingungstilger für Fussgängerbrücken = Tuned-mass dampers for footbridges = Amortisseurs pour passerelles pour piétonsMEEK, J.W.Bautechnik (Berlin, 1984). 1996, Num 6, pp 348-355, issn 0932-8351Article

Ein hochdynamischer hydraulischer Aktor -Modellierung und Anwendung = A highly-dynamic hydraulic actuator: Modelling and applicationULBRICH, H; ABICHT, C.Konstruktion (1981). 2002, Num 11-12, pp 61-63, issn 0720-5953, 3 p.Article

New magnetic viscous damper with intelligent or smart fluid for the next generationSHIMADA, K; KANNO, H; OGAWA, J et al.SPIE proceedings series. 2002, pp 241-251, isbn 0-8194-4731-5, 11 p.Conference Paper

Seismic response control of a benchmark cable-stayed bridge by variable dampersRUANGRASSAMEE, Anat; KAWASHIMA, Kazuhiko.Proceedings of the American Control Conference. 2002, pp 3064-3069, issn 0743-1619, isbn 0-7803-7298-0, 6Vol, 6 p.Conference Paper

On tuned liquid column dampers mounted on a structural frame under a non-ideal excitationFELIX, Jorge L. P; BALTHAZAR, José M; BRASIL, Reyolando M. L. R. F et al.Journal of sound and vibration. 2005, Vol 282, Num 3-5, pp 1285-1292, issn 0022-460X, 8 p.Article

Application of sensitivity analysis to the development of high performance adaptive hydraulic engine mountsFOUMANI, M. S; KHAJEPOUR, A; DURALI, M et al.Vehicle System Dynamics. 2003, Vol 39, Num 4, pp 257-278, issn 0042-3114, 22 p.Article

Single-stage magnetorheological damper parameter estimationVAVRECK, Andrew N.Smart materials and structures. 2002, Vol 11, Num 4, pp 596-598, issn 0964-1726Article

A new type of hydraulic shock absorber using electrorheological fluid : (countermeasures for electric current blocked)MAEMORI, K.-I; SAITO, T.JSME international journal. Series C, Mechanical systems, machine elements and manufacturing. 1998, Vol 41, Num 1, pp 156-163, issn 1344-7653Article

Magnetorheological throttle valve in passive damping systemsGORODKIN, S; LUKIANOVICH, A; KORDONSKI, W et al.Journal of intelligent material systems and structures. 1998, Vol 9, Num 8, pp 637-641, issn 1045-389XConference Paper

Design of an Electrorheological Fluid Shock Absorber Base on Fuzzy Control TechnologyHE FENGQIN; LIN JUN; LI DAN et al.Proceedings of SPIE, the International Society for Optical Engineering. 2008, Vol 7130, issn 0277-786X, isbn 978-0-8194-7364-6, 71302P.1-71302P.6, 2Conference Paper

The use of magnetorheological fluid dampers to reduce servo drive velocity jumps due to load changesMILECKI, Andrzej; SEDZIAK, Dariusz.Journal of intelligent material systems and structures. 2005, Vol 16, Num 6, pp 501-510, issn 1045-389X, 10 p.Article

On the design and testing of a smart car damper based on electro-rheological technologySASSI, Sadok; CHERIF, Khaled; THOMAS, Marc et al.Smart materials and structures. 2003, Vol 12, Num 6, pp 873-880, issn 0964-1726, 8 p.Article

Analysis of high frequency forces generated by hydraulic automotive dampersYUNG, V. Y. B; COLE, D. J.Vehicle System Dynamics. 2002, Vol 37, pp 441-452, issn 0042-3114, 12 p., SUPConference Paper

Présentation d'une méthodologie générale pour l'analyse et la commande des systèmes physiques : application au cas de la suspension oléopneumatique active = Presentation of a general methodology for the analysis and the control of physical systems : application to the development of an hydraulic active suspensionGuillemard, Franck; Dauphin Tanguy, Geneviève.1996, 2 vol., 345 pThesis

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A hysteresis model for the field-dependent damping force of a magnetorheological damperCHOI, S.-B; LEE, S.-K; PARK, Y.-P et al.Journal of sound and vibration. 2001, Vol 245, Num 2, pp 375-383, issn 0022-460XArticle

Numerical modelling for the hydraulic performance prediction of automotive monotube dampersLEE, K.Vehicle System Dynamics. 1997, Vol 28, Num 1, pp 25-39, issn 0042-3114Article