Accession Number : ADA334929
Title : End Effects for Plane Deformations of an Elastic Anisotropic Semi-Infinite Strip
Descriptive Note : Final rept.
Corporate Author : AIR FORCE RESEARCH LAB BOLLING AFB DC
Personal Author(s) : Miller, Kristin L.
PDF Url : ADA334929
Report Date : MAY 1994
Pagination or Media Count : 137
Abstract : In the linear theory of elasticity, Saint-Venant's principle is used to justify the neglect of edge effects when determining stresses in a body. For isotropic materials, the validity of this is well established. However for anisotropic materials, experimental results have shown that edge effects may persist much farther into the material than for isotropic materials and as a result cannot be neglected. This research examines the effect of material anisotropy on the exponential decay rate for stresses in a semi-infinite elastic strip. A linear elastic semi-infinite strip in a state of plane stress/strain subject to a self-equilibrated end load is considered first for a specially orthotropic material and then for the general anisotropic material. The problem is governed by a fourth-order elliptic partial differential equation with constant coefficients. Conservation properties of the solution are derived to help to determine a stress decay rate estimate. Energy methods are then used to establish lower bounds on the actual stress decay rate. Both analytic and numerical estimates are obtained in terms of the elastic constants of the material and results are shown for several contemporary engineering materials. When compared with the exact stress decay rate computed numerically from the eigenvalues of a fourth-order ordinary differential equation, the results in some cases show a high degree of accuracy. Results of the type obtained here have several important practical applications.
Descriptors : *STRESSES, *DEFORMATION, *ELASTIC PROPERTIES, *ANISOTROPY, HIGH RATE, MATERIALS, LAMINATES, ENERGY, NUMERICAL ANALYSIS, THESES, EIGENVALUES, COMPOSITE STRUCTURES, ESTIMATES, ENGINEERING, ISOTROPISM, LINEARITY, DIFFERENTIAL EQUATIONS, CONSERVATION, EXPONENTIAL FUNCTIONS, DECAY, PLANE WAVES.
Subject Categories : Laminates and Composite Materials
Distribution Statement : APPROVED FOR PUBLIC RELEASE