A finite element limit analysis (FELA) uses optimisation techniques to directly compute the upper or lower bound plastic collapse load (or limit load) for a mechanical system rather than time stepping to a collapse load, as might be undertaken with conventional non-linear finite element techniques. The problem may be formulated in either a kinematic or equilibrium form.[1][2]
The technique has been used most significantly in the field of soil mechanics for the determination of collapse loads for geotechnical problems (e.g. slope stability analysis). An alternative technique which may be used to undertake similar direct plastic collapse computations using optimization is Discontinuity layout optimization.
Software for finite element limit analysis
OptumG2 (2014-) General purpose software for 2D geotechnical applications.
OptumG3 (2017-) General purpose software for 3D geotechnical applications.
^Lysmer, J. (1970). Limit analysis of plane problems in
soil mechanics. Journal of the Soil Mechanics and Foundations Division ASCE 96(4), 1311–1334.
^Sloan, S. (1988). Lower bound limit analysis using finite
elements and linear programming. Int. J. Num. Anal. Meth. in Geomech. 12(4), 61–77.
Further reading
Kumar, Jyant, and Debasis Mohapatra. "Lower-bound finite elements limit analysis for Hoek-Brown materials using semidefinite programming." Journal of Engineering Mechanics 143.9 (2017): 04017077.doi:10.1061/(ASCE)EM.1943-7889.0001296
Makrodimopoulos, A., and C. M. Martin. "Lower bound limit analysis of cohesive‐frictional materials using second‐order cone programming." International Journal for Numerical Methods in Engineering 66.4 (2006): 604-634.doi:10.1002/nme.1567
Mohapatra D, Kumar J. Collapse loads for rectangular foundations by three‐dimensional upper bound limit analysis using radial point interpolation method. Int J Numer Anal Methods Geomech. 2018;1–20. https://doi.org/10.1002/nag.2885
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