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The Timoshenko Beam With a Moving Load
Journal of Applied Mechanics, 1968Abstract The problem of a semi-infinite Timoshenko beam of an elastic foundation with a step load moving from the supported end at a constant velocity is discussed. Asymptotic solutions are obtained for all ranges of load speed. The solution is shown to approach the “steady-state” solution, except for three speeds at which the steady ...
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2014
The book represents a valuable contribution to civil engineering, mechanical engineering, naval architecture and nanotechnology. It includes an analytical solutionof Timoshenko beam response due to moving gravity and inertia force. The problem is solved by the modified Timoshenko beam theory, which deals with a 4th order partial differential equation ...
Hadžić, Neven +2 more
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The book represents a valuable contribution to civil engineering, mechanical engineering, naval architecture and nanotechnology. It includes an analytical solutionof Timoshenko beam response due to moving gravity and inertia force. The problem is solved by the modified Timoshenko beam theory, which deals with a 4th order partial differential equation ...
Hadžić, Neven +2 more
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Moving loads on elastic cylindrical shells
Journal of Sound and Vibration, 1976Abstract This paper presents a theoretical analysis of the axially-symmetric, steady-state response of a linearly-elastic, homogeneous, infinitely-long, cylindrical shell, subjected to a ring load traveling at a constant velocity. The Fourier transform method in conjunction with the contour integral has been applied to obtain the steady-state ...
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Meshfree Methods in Moving Load Problems
2012The idea of meshless methods is to eliminate the mesh generation stage, which is the main disadvantage of the finite element method (or other classical discrete methods). In a meshless method, the set of separated points is placed in the domain of the structure. Interpolation functions (shape functions) are then generated not in element subdomains, but
Czesław I. Bajer, Bartłomiej Dyniewicz
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Dynamic Analysis of a Fiber-Reinforced Composite Beam under a Moving Load by the Ritz Method
Mathematics, 2021Hakan Ersoy, Bekir Akgöz, Ömer Civalek
exaly
Plates subjected to a moving load
1972Vibration of plates under the action of a moving load has so far received but scant attention. The problem was treated by W. Nowacki [170] and K. Piszczek [180].
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Moving-load dynamic problems: A tutorial (with a brief overview)
Mechanical Systems and Signal Processing, 2011Huajiang Ouyang
exaly
On the dynamic response of porous functionally graded microbeam under moving load
International Journal of Engineering Science, 2020Hu Liu
exaly