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On a Dynamical Saint Venant Principle
Journal of Applied Mechanics, 1960The dynamic behavior of a simple mechanical model composed of two Timoshenko beams connected by springs is studied. The accuracy of a quasi-static solution and of Saint Venant’s principle is studied for various rates of load application.
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Saint-Venant's principle on unbounded regions
Proceedings of the Royal Society of Edinburgh: Section A Mathematics, 1990SynopsisWe consider an anisotropic non-homogeneous linear elastic material in equilibrium and occupying an open region with non-compact boundary. In both the linearised and classical linear theories the asymptotic behaviour of the solution is determined and a clear relationship established with Saint-Venant's principle on such regions.
RIONERO, SALVATORE +2 more
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Minimum energy characterizations of Saint-Venant's solution to the relaxed Saint-Venant problem
Archive for Rational Mechanics and Analysis, 1966The singular importance, in both theory and practice, of SAINT-VENANT'S celebrated memoirs [1], [2] on what has long since become known as SAINTVENANT'S problem, requires no emphasis. Indeed, a comprehensive bibliography of the vast and varied literature to which the work contained in [1], [2] has given impetus would multiply the length of this ...
Sternberg, Eli, Knowles, James K.
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2005
A prismatic rod is the body obtained by translating a plane figure S along a straight line which is perpendicular to the plane of the figure. In this case the plane figure S presents the cross-section of the rod. The axis Oz of the rod is the straight line which is the locus of the centres of inertia of the cross-sections whereas axes Ox and Oy lying ...
A. I. Lurie, Alexander Belyaev
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A prismatic rod is the body obtained by translating a plane figure S along a straight line which is perpendicular to the plane of the figure. In this case the plane figure S presents the cross-section of the rod. The axis Oz of the rod is the straight line which is the locus of the centres of inertia of the cross-sections whereas axes Ox and Oy lying ...
A. I. Lurie, Alexander Belyaev
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Archive for Rational Mechanics and Analysis, 1986
This paper is concerned with Saint-Venant's problem for linear homogeneous isotropic elastic cylinders subject to end loads only. The author presents a novel approach to the construction of the Saint-Venant solutions based on taking derivatives with respect to the axial coordinate. A question posed by C. Truesdell for the torsion problem, and solved by
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This paper is concerned with Saint-Venant's problem for linear homogeneous isotropic elastic cylinders subject to end loads only. The author presents a novel approach to the construction of the Saint-Venant solutions based on taking derivatives with respect to the axial coordinate. A question posed by C. Truesdell for the torsion problem, and solved by
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Saint Venant’s estimates in anisotropic magnetohydrodynamics
ANNALI DELL UNIVERSITA DI FERRARA, 2001Summary: We study the steady motion of an incompressible viscous fluid in a semi-infinite cylinder supposing the fluid to be electrically conducting and embedded in an external magnetic field \(H\) which is constant and longitudinal. We state the rate of decay of the solution: under suitable hypotheses at infinity, the velocity field and the magnetic ...
BORRELLI, Alessandra +1 more
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Nonlinearity tests of the Saint Venant equations
52nd IEEE Conference on Decision and Control, 2013The Saint Venant equations are two nonlinear partial differential equations (PDE) which are used to describe the dynamics of one-dimensional flow in open water channels. Despite being nonlinear PDEs, the Saint Venant equations seem to exhibit linear behaviour in response to sinusoidal input signals.
Mathias Foo, Erik Weyer
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Saint venant's principle in linear viscoelasticity
International Journal of Engineering Science, 1997We consider an anisotropic and inhomogeneous viseoelastic body that is subjected on the time interval \([0,T]\) to body forces and initial and boundary data having a bounded support. Then a complete description is given upon what happen in the outside of the support region \(D_T\) of the data.
S. Chirita +2 more
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Some remarks on Saint‐Venant's principle
Mathematical Methods in the Applied Sciences, 1989AbstractWe consider a three‐dimensional hyperelastic cylinder in Ω = D × [0, ∞]. We study the asymptotic behaviour of the deformations of the cross‐sections in an equilibrium state. In this case we show that the solutions either have exponential decay or exponential growth. We give some initial conditions such that the latter case occurs.
H. A. Levine +2 more
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On Saint-Venant’s Problem and Saint-Venant’s Principle in Nonlinear Elasticity
1988The pioneering work of Saint-Venant in 1856 layed the basis for an important research field in elasticity, nowadays paraphrased by the names Saint-Venant’s Principle and Saint-Venant’s Problem. It is concerned with elastic deformations of a prismatic body whose elastic properties do not depend on the axial variable and which is loaded only near its end.
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