THE EIGENVALUE PROBLEM FOR A CLASS OF LONG, THIN ELASTIC STRUCTURES WITH PERIODIC GEOMETRY

Elastic structures consisting of many thin elements arranged periodica lly (such as grids and trusses) are common in applications. Using stan dard numerical techniques such as splines in attempting to analyze the se structures leads to serious difficulties due to the complicated geo metry. Instead, one can use methods of asymptotic analysis to derive a ''simple'' problem whose solution approximates that bf the original p roblem. In this paper we begin with a linearized elastic system on a t hree-dimensional domain with two of the dimensions small relative to t he third and derive a one-dimensional eigenvalue problem by letting a small parameter tend to zero. The resulting equation has coefficients which vary periodically with the spatial variable, so we let the perio d tend to zero to obtain the 'homogenized'' equation which has constan t coefficients whose values can be easily calculated once the geometry of the structure is specified. We illustrate with several examples.