A reliable incremental method of computing the limit load in deformation plasticity based on compliance: Continuous and discrete setting
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摘要
The aim of this paper is to introduce an enhanced incremental procedure that can be used for the numerical evaluation and reliable estimation of the limit load. A conventional incremental method of limit analysis is based on parametrization of the respective variational formulation by the loading parameter ζ∈(0,ζlim), where ζlim is generally unknown. The enhanced incremental procedure is operated in terms of an inverse mapping ψ:α↦ζ where the parameter α belongs to (0,+∞) and its physical meaning is work of applied forces at the equilibrium state. The function ψ is continuous, nondecreasing and its values tend to ζlim as α→+∞. Reduction of the problem to a finite element subspace associated with a mesh Th generates the discrete limit parameter ζlim,h and the discrete counterpart ψh to the function ψ. We prove pointwise convergence ψh→ψ and specify a class of yield functions for which ζlim,h→ζlim. These convergence results enable to find reliable lower and upper bounds of ζlim. Numerical tests confirm computational efficiency of the suggested method.
论文关键词:Variational problems with linear growth energy,Incremental limit analysis,Elastic-perfectly plastic problems,Finite element approximation
论文评审过程:Received 12 February 2015, Revised 12 January 2016, Available online 2 March 2016, Version of Record 17 March 2016.
论文官网地址:https://doi.org/10.1016/j.cam.2016.02.035