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...
A robust algorithm is developed to solve plane strain limit analysis problems by means of the lower ...
In this paper, a simple discontinuous upper bound limit analysis approach with sequential linear pr...
AbstractThis paper presents a novel plasticity-based formulation for three-dimensional (3D) topology...
A new and potentially widely applicable numerical analysis procedure for continuum mechanics problem...
The recently developed discontinuity layout optimization (DLO) procedure uses limit analysis theory...
Discontinuity layout optimisation (DLO) is a generally applicable numerical limit analysis procedure...
The prediction of strength properties of engineering materials, which in general are time dependent ...
The yield-line method provides a powerful means of rapidly estimating the ultimate load that can be ...
The yield-line method of analysis is a long established and extremely effective means of estimating ...
Discontinuity layout optimization (DLO) is a relatively new upper bound limit analysis method. Compa...
To help engineers to design and analyse structures, various tools exist. However, many of them are c...
Discontinuity Layout Optimization (DLO) (Smith & Gilbert 2007) is an upper bound limit analysis tech...
This paper presents a new adaptive strategy to efficiently exploit velocity discontinuities in 3D fi...
Discontinuities can appear in different fields of mechanics. Some examples where discontinuities ari...
A new approach to the computation of the Limit load of a Von Mises rigid-plastic material structure ...
A robust algorithm is developed to solve plane strain limit analysis problems by means of the lower ...
In this paper, a simple discontinuous upper bound limit analysis approach with sequential linear pr...
AbstractThis paper presents a novel plasticity-based formulation for three-dimensional (3D) topology...
A new and potentially widely applicable numerical analysis procedure for continuum mechanics problem...
The recently developed discontinuity layout optimization (DLO) procedure uses limit analysis theory...
Discontinuity layout optimisation (DLO) is a generally applicable numerical limit analysis procedure...
The prediction of strength properties of engineering materials, which in general are time dependent ...
The yield-line method provides a powerful means of rapidly estimating the ultimate load that can be ...
The yield-line method of analysis is a long established and extremely effective means of estimating ...
Discontinuity layout optimization (DLO) is a relatively new upper bound limit analysis method. Compa...
To help engineers to design and analyse structures, various tools exist. However, many of them are c...
Discontinuity Layout Optimization (DLO) (Smith & Gilbert 2007) is an upper bound limit analysis tech...
This paper presents a new adaptive strategy to efficiently exploit velocity discontinuities in 3D fi...
Discontinuities can appear in different fields of mechanics. Some examples where discontinuities ari...
A new approach to the computation of the Limit load of a Von Mises rigid-plastic material structure ...
A robust algorithm is developed to solve plane strain limit analysis problems by means of the lower ...
In this paper, a simple discontinuous upper bound limit analysis approach with sequential linear pr...
AbstractThis paper presents a novel plasticity-based formulation for three-dimensional (3D) topology...