Advances in Building Technology 2002
DOI: 10.1016/b978-008044100-9/50061-9
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A research and development of smart building structures by Magneto-Rheological damper

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Cited by 4 publications
(4 citation statements)
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“…The controlled accelerations are reduced to the same values as those of the case of the constant electric current of 0.3 A, and the controlled displacements are reduced to the same values as those of the case of the constant current of 0.6 A. This shows that semi-active control by the MR damper reduces the response displacements while reducing the response acceleration (Fujitani 2002b).…”
Section: Performance Verification By Large-scale Shaking Table Testsmentioning
confidence: 58%
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“…The controlled accelerations are reduced to the same values as those of the case of the constant electric current of 0.3 A, and the controlled displacements are reduced to the same values as those of the case of the constant current of 0.6 A. This shows that semi-active control by the MR damper reduces the response displacements while reducing the response acceleration (Fujitani 2002b).…”
Section: Performance Verification By Large-scale Shaking Table Testsmentioning
confidence: 58%
“…23(a)) was developed in order to verify the performance of an MR damper, for example, the force-displacement relationship, the force-velocity relationship, the influence of temperature and response speed of an MR damper (Sunakoda 2000). Then a 200 kN MR damper was developed in order to verify the same items in the case that the electromagnet was attached to the bypass flow portion which was connected to the cylinder (Fujitani 2002a).…”
Section: Researches and Development Of Mr Fluids And Mr Dampersmentioning
confidence: 99%
“…Later, people began large-scale research on magnetorheological shock absorbers for automotive suspensions. In terms of improving damping force performance, Sanwa Tekki Company of Japan has developed a bypass valve-type magnetorheological damper that can output up to 20 tons of damping force [6][7].Shawn. P. Kelso and others from the United States [8] invented a magnetorheological damper with an S-shaped irregular damping gap to improve damping performance.…”
Section: Introductionmentioning
confidence: 99%
“…It has also been widely used for the clutch, brake and locking systems in the automotive sector (Li and Du 2005;Park et al 2006;Senkal and Gürocak 2010;19-21). Similarly, the MR fluids have been used in different areas of industry, structural control applications; for the protection of buildings against earthquake while absorbing vibrations of bridges and buildings during the earthquakes and also absorbing vibrations of washing machines Dyke et al 1996;Dyke et al 1997;Gordaninejad et al 1999;Fujitani et al 2002;Yang et al 2011), to medical area; for the use of prosthetic legs to facilitate the movement (Hsu et al 2006;Jonsdottir et al 2009;Hreinsson 2011) and surface polishing technology (Yan et al 2007;Jha and Jain 2009;Jang et al 2010). Also it will be possible to make robots that can be able to use hands and arms as naturally as people by using MR fluids planned to be used in spacecrafts (Pettersson et al 2010).…”
Section: Introductionmentioning
confidence: 99%