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61	Three-dimensional elasticity solution of a spherical cap Angsirikul, Thermkiart, January 1976 (has links) Thesis--Wisconsin. / Vita. Includes bibliographical references (leaves 87-89).
62	Vibration damping analysis of cylindrical shells partially coated withconstrained visco-elastic layers Ravish, Masti Sarangapany. January 2001 (has links) published_or_final_version / Mechanical Engineering / Doctoral / Doctor of Philosophy Shells (Engineering) - Vibration. Damping (Mechanics). Viscoelastic materials.
63	A TRIANGULAR ANISOTROPIC THIN SHELL ELEMENT BASED ON DISCRETE KIRCHHOFF THEORY. MURTHY, SUBBAIAH SRIDHARA. January 1983 (has links) The research work presented here deals with problems associated with finite element analysis of laminated composite thin-shell structures. The specific objective was to develop a thin shell finite element to model the linear elastic behavior of these shells, which would be efficient and simple to use by the practicing engineer. A detailed discussion of the issues associated with the development of thin shell finite element has been presented. It has been pointed out that the problems encountered with formulation of these elements stem from the need for satisfaction of the interelement normal slope continuity and the rigid body displacement condition by the assumed displacement functions. These difficulties have been surmounted by recourse to the discrete Kirchhoff theory approach and an isoparametric representation of the shell middle surface. A detailed derivation of the strain energy density in a thin laminated composite shell, based on a linear shear deformation theory formulated in a general curvilinear coordinate system, has been presented. The strain-displacement relations are initially derived in terms of the displacement and rotation vectors of the shell middle surface, and are subsequently expressed in terms of the cartesian components of these vectors to enable an isoparametric representation of the shell geometry. A three-node curved triangular element with the tangent and normal displacement components and their first-order derivatives as the final nodal degrees of freedom has been developed. The element formulation, however, starts with the independent interpolation of cartesian components of the displacement and rotation vectors using complete cubic and quadratic polynomials, respectively. The rigid-body displacement condition is satisifed by isoparametric interpolation of the shell geometry within an element. A convergence to the thin shell solution is achieved by enforcement of the Kirchhoff hypothesis at a discrete number of points in the element. A detailed numerical evaluation through a number of standard problems has been carried out. Results of application of the "patch test solutions" to spherical shells demonstrate a satisfactory performance of the element under limiting states of deformation. It is concluded that the DKT approach in conjunction with isoparametric representation results in a simple and efficient thin shell element. Shells (Engineering) -- Analysis. Structural analysis (Engineering)
64	FINITE AXISYMMETRIC DEFORMATION OF A THIN SHELL OF REVOLUTION. KEPPEL, WILLIAM JAMES. January 1984 (has links) The finite axisymmetric deformation of a thin shell of revolution is treated in this analysis. The governing differential equations are given for hyperelastic shell materials with Mooney-Rivlin and exponential strain energy density functions. These equations are solved numerically using a 4th order Runge-Kutta integration procedure. A generalized Newton-Raphson iteration process is used to systematically improve trial solutions of the differential equations. The governing differential equations are differentiated with respect to time to derive associated rate equations. The rate equations are solved numerically to generate the tangent stiffness matrix which is used to determine the load deformation history of the shell with incremental loading. Numerical examples are presented to illustrate the major characteristics of the nonlinear shell behavior and recommendations are made for future research. Elastic plates and shells. Shells (Engineering) -- Analysis.
65	Vibration damping analysis of cylindrical shells partially coated with constrained visco-elastic layers Ravish, Masti Sarangapany. January 2001 (has links) Thesis (Ph. D.)--University of Hong Kong, 2001. / Includes bibliographical references (leaves 344-354).
66	Structural acoustic optimization of a composite cylindrical shell Johnson, Wayne Michael, January 2004 (has links) (PDF) Thesis (Ph. D.)--School of Mechanical Engineering, Georgia Institute of Technology, 2004. Directed by Kenneth A. Cunefare. / Vita. Includes bibliographical references (leaves 129-136).
67	Multilevel, subdivision-based, thin shell finite elements : development and an application to red blood cell modeling / Green, Seth. January 2003 (has links) Thesis (Ph. D.)--University of Washington, 2003. / Vita. Includes bibliographical references (p. 181-188).
68	Formulation of solid elements for linear and geometric nonlinear analysis of shells 陳永堅, Chan, Wing-kin. January 2001 (has links) published_or_final_version / abstract / Mechanical Engineering / Master / Master of Philosophy Shells (Engineering) Strains and stresses. Mathematical analysis.
69	NONLINEAR STRESSES IN THIN SHELLS OF REVOLUTION Birchler, Wilbur David, 1937- January 1970 (has links) No description available. Strains and stresses.
70	Approximate buckling loads for constant stress shells Amangoua, Lookensey January 1968 (has links) No description available. Buckling (Mechanics) Shells (Engineering) Strains and stresses.

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