The influences of magnetostrictive layers on active vibration control of laminated composite rotating cylindrical shells based on first-order shear deformation theory
2019 ◽
Vol 233
(13)
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pp. 4606-4619
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Keyword(s):
In this paper for the first time, active vibration control of rotating laminated composite cylindrical shells embedded with magnetostrictive layers as actuators by means of first-order shear deformation theory is studied. Vibration equations of the rotating shell are extracted using Hamilton principle considering the effects of initial hoop tension, Coriolis, and centrifugal forces. The vibration differential equations are reduced to algebraic ones through Galerkin method. The validity of the study is proved by the comparison of some results with the literature results. Eventually, the influence of several parameters on damping characteristics and vibration responses are investigated in detail.
2016 ◽
Vol 15
(4)
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pp. 611-620
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2017 ◽
Vol 163
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pp. 350-364
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2016 ◽
Vol 105
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pp. 90-101
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2016 ◽
Vol 155
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pp. 118-134
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A hybrid stress approach for laminated composite plates within the First-order Shear Deformation Theory
2008 ◽
Vol 45
(6)
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pp. 1766-1787
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2018 ◽
Vol 193
◽
pp. 189-197
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2019 ◽
Vol 170
◽
pp. 73-81
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2016 ◽
Vol 143
◽
pp. 255-271
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1984 ◽
Vol 51
(4)
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pp. 745-752
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