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Application of the Maximum Deformation Theory of Failure to the Torsional Failure Due to Fracture of 4140 SteelKumar, C. V. Krishna 01 May 1972 (has links)
Forming is the fastest way of changing the shape of a piece of metal. It is the most economical process to use for high-volume mass production when the shape of a part is such that it can be made by one of the forming operations
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Behavior of concrete under biaxial cyclic compressionZisman, Joseph Gary January 1982 (has links)
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Civil Engineering, 1982. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ENGINEERING. / Bibliography: leaves 188-189. / by Joseph Gary Zisman. / M.S.
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Jointed rock mass deformability : a probabilistic approachDershowitz, William Simon January 1979 (has links)
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Civil Engineering, 1979. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ENGINEERING. / Bibliography: leaves 201-208. / by William Simon Dershowitz. / M.S.
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High temperature deformation of zirconium and zirconiumtin alloys.Luton, Michael John January 1971 (has links)
No description available.
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High temperature deformation of Armco iron and silicon steel in the vicinity of the Curie temperatureImmarigeon, J-P. A. January 1974 (has links)
No description available.
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Recovery and recrystallization in FCC metals after high temperature deformationPetković-Luton, Ružica Aleksandra. January 1975 (has links)
No description available.
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Prediction of high temperature deformation textures in FCC metalsBacroix, Brigitte. January 1986 (has links)
No description available.
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Effect of deformation on the [gamma] to [alpha] transformation in three microalloyed steelsEssadiqi, E. January 1986 (has links)
No description available.
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Characterization of shear and bending stiffness for optimizing shape and material of lightweight beamsAmany, Aya Nicole Marie January 2007 (has links)
No description available.
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Influence of ring stiffeners and prebuckling deformations on the buckling of eccentrically stiffened orthotropic cylindersBlock, David Lester January 1966 (has links)
This research presents an analytical investigation of the buckling of eccentrically stiffened orthotropic cylinders and includes the influence of prebuckling deformations. Nonlinear equilibrium equations and boundary conditions are derived by using energy principles. The stiffened cylinder consists of a cylindrical shell made of a homogeneous orthotropic material with eccentric stiffeners on its surface. The rings, or circumferential stiffeners, are considered to be located discretely on circumferential lines along the length of the cylinder and the stringers, or longitudinal stiffeners, are considered to be closely spaced so that their properties can be averaged (smeared out) over the stringer spacing. The stiffeners are considered to be beam elements, to be equally spaced, and to have the stiffener twisting accounted for in an approximate manner. Non-linear Donnell type strain-displacement relations for the shell and the stiffeners are defined and the strain energy of the stiffener-cylinder system is formulated. The governing nonlinear equilibrium equations and boundary conditions are then obtained by the principle of minimum potential energy and the fundamental lemma of calculus of variations. The discrete ring terms are included in the nonlinear equilibrium equations by use of a Dirac delta function. By a perturbation of the nonlinear equilibrium equations and boundary conditions, a set of nonlinear prebuckling equations and boundary conditions and linear buckling equations and boundary conditions are obtained which govern the prebuckling deformations and stresses and buckling of a stiffened orthotropic cylinder with discrete rings.
Solutions of the prebuckling and buckling equations are obtained for classical simple support boundary conditions and for loadings of axial compression, lateral pressure, and combinations of axial compression and external or internal pressure. The solutions are obtained by the method of finite differences in which the governing equations and boundary conditions are changed to a system of second order differential equations which are then written in terms of finite differences at stations along the length of the cylinder. The difference equations are formulated in terms of a matrix equation which is solved by a modified G~ussian elimination technique. Solutions of the prebuckling and buckling equations for the case where the rings are considered to be smeared out are presented for comparison with the discrete case. A Galerkin solution of the buckling equations for discrete rings assuming classical prebuckling deformations is also presented in the Appendix.
Computed results for two types of contemporary stiffened cylinders are presented in order to study and illustrate the importance of prebuckling deformations, discrete rings, and eccentrically applied compressive loads. The results show that the predicted buckling loads for stiffened cylinders may be substantially affected by using an analysis which takes into account prebuckling deformations. / Doctor of Philosophy
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