RT Journal Article
SR Electronic
T1 Application of discontinuity layout optimization to plane plasticity problems
JF Proceedings of the Royal Society A: Mathematical, Physical and Engineering Science
JO PROC R SOC A
FD The Royal Society
SP 2461
OP 2484
DO 10.1098/rspa.2006.1788
VO 463
IS 2086
A1 Smith, Colin
A1 Gilbert, Matthew
YR 2007
UL http://rspa.royalsocietypublishing.org/content/463/2086/2461.abstract
AB A new and potentially widely applicable numerical analysis procedure for continuum mechanics problems is described. The procedure is used here to determine the critical layout of discontinuities and associated upper-bound limit load for plane plasticity problems. Potential discontinuities, which interlink nodes laid out over the body under consideration, are permitted to crossover one another giving a much wider search space than when such discontinuities are located only at the edges of finite elements of fixed topology. Highly efficient linear programming solvers can be employed when certain popular failure criteria are specified (e.g. Tresca or Mohr–Coulomb in plane strain). Stress/velocity singularities are automatically identified and visual interpretation of the output is straightforward. The procedure, coined ‘discontinuity layout optimization’ (DLO), is related to that used to identify the optimum layout of bars in trusses, with discontinuities (e.g. slip-lines) in a translational failure mechanism corresponding to bars in an optimum truss. Hence, a recently developed adaptive nodal connection strategy developed for truss layout optimization problems can advantageously be applied here. The procedure is used to identify critical translational failure mechanisms for selected metal forming and soil mechanics problems. Close agreement with the exact analytical solutions is obtained.