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Title:Numerical Analysis of ELastic Plates and Shallow Shells By an Integral Equation Method
Author(s):Forbes, D.J.; Robinson, A.R.
Subject(s):Integral equations
Boundary value problems --Numerical solutions
Elastic plates and shells
Abstract:The object of this investigation is to develop a numerical method for determining the static displacements and stresses in certain elastic plates and shells based on an integral equation formulation of the boundary value problem. The basic singular solutions used are those of plane stress in elasticity and of the theory of flexure of plates. In accordance with these theories, the plate or shell is assumed to be thin or of medium thickness and is composed of homogeneous, isotropic elastic material. It is also assumed that the displacements and rotations are small, so that linear theories are applicable; that is buckling is not considered.
Issue Date:1969-07
Publisher:University of Illinois Engineering Experiment Station. College of Engineering. University of Illinois at Urbana-Champaign.
Series/Report:Civil Engineering Studies SRS-(345)
Genre:Technical Report
Sponsor:The Office of Naval Reserch Department of The Navy. Contract N00014-67-A-0305-0010
Date Available in IDEALS:2009-11-19
Identifier in Online Catalog:666432

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