Evolutionary structural optimization for problems with stiffness constraints
Finite Elements in Analysis and Design
An evolutionary method for optimization of plate buckling resistance
Finite Elements in Analysis and Design
A survey of structural and multidisciplinary continuum topology optimization: post 2000
Structural and Multidisciplinary Optimization
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In recent years, the Evolutionary Structural Optimization (ESO) method has been developed into an effective engineering design tool, allowing various structural constraints to be incorporated into the optimization process such as natural frequency, buckling, stiffness, stress, displacement and heat. However, no attempts have been made to incorporate nonstructural constraints such as the number of cavities in the final topology and manufacturing constraints. This paper introduces a modification of the ESO method named Intelligent Cavity Creation (ICC) by which the number of cavities can be controlled. This method has the additional benefit of eliminating the formation of checkerboard patterns. The proposed ICC algorithm is applied to several optimization problems to show its effectiveness. It is also demonstrated that ICC produces more practical topologies.