On state-space elastostatics within a plane stress sectorial domain – the wedge and the curved beam

Abstract: a b s t r a c tThe plane stress sectorial domain is analysed according to a state-space formulation of the linear theory of elasticity. When loading is applied to the straight radial edges (flanks), with the circular arcs free of traction, one has the curved beam; when loading is applied to the circular arcs, with the flanks free of traction, one has the elastic wedge. A complete treatment of just one problem (the elastic wedge, say) requires two state-space formulations; the first describes radial evolution f… Show more

“…Therefore, for formulation of SVP for such cases the length scale is taken from the load definition, as demonstrated in statics by von-Mises [137] and Steinberg [138] for a half space and by Horvay [139], Markenscoff [140] and Stephen [141] for a wedge. Few studies examine the possibilities to extend findings in these geometries to the dynamic case.…”

Saint-Venant’s Principle in Dynamics of Structures

“…Therefore, for formulation of SVP for such cases the length scale is taken from the load definition, as demonstrated in statics by von-Mises [137] and Steinberg [138] for a half space and by Horvay [139], Markenscoff [140] and Stephen [141] for a wedge. Few studies examine the possibilities to extend findings in these geometries to the dynamic case.…”

Saint-Venant’s Principle in Dynamics of Structures

Elastodynamic End Effects in Structural Mechanics

Analysis of the stress field in an annular sector using the method of fast expansions