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Reliability based optimization of laminated composite structures using genetic algorithms and Artificial Neural Networks
Highlights ► Reliability based design optimization of composite structures with surrogate models. ► Simple to complex examples used to validate the methodology. ► RBDO on 3D composite shell including stochastic fields for layer thickness. ► Acceptable accuracy and reduced processing time for this methodology. ► Improved reliability of composite design by ply angle re-orientation.
Abstract The design of anisotropic laminated composite structures is very susceptible to changes in loading, angle of fiber orientation and ply thickness. Thus, optimization of such structures, using a reliability index as a constraint, is an important problem to be dealt. This paper addresses the problem of structural optimization of laminated composite materials with reliability constraint using a genetic algorithm and two types of neural networks. The reliability analysis is performed using one of the following methods: FORM, modified FORM (FORM with multiple checkpoints), the Standard or Direct Monte Carlo and Monte Carlo with Importance Sampling. The optimization process is performed using a genetic algorithm. To overcome high computational cost it is used Multilayer Perceptron or Radial Basis Artificial Neural Networks. It is shown, presenting two examples, that this methodology can be used without loss of accuracy and large computational time savings, even when dealing with non-linear behavior.
Reliability based optimization of laminated composite structures using genetic algorithms and Artificial Neural Networks
Highlights ► Reliability based design optimization of composite structures with surrogate models. ► Simple to complex examples used to validate the methodology. ► RBDO on 3D composite shell including stochastic fields for layer thickness. ► Acceptable accuracy and reduced processing time for this methodology. ► Improved reliability of composite design by ply angle re-orientation.
Abstract The design of anisotropic laminated composite structures is very susceptible to changes in loading, angle of fiber orientation and ply thickness. Thus, optimization of such structures, using a reliability index as a constraint, is an important problem to be dealt. This paper addresses the problem of structural optimization of laminated composite materials with reliability constraint using a genetic algorithm and two types of neural networks. The reliability analysis is performed using one of the following methods: FORM, modified FORM (FORM with multiple checkpoints), the Standard or Direct Monte Carlo and Monte Carlo with Importance Sampling. The optimization process is performed using a genetic algorithm. To overcome high computational cost it is used Multilayer Perceptron or Radial Basis Artificial Neural Networks. It is shown, presenting two examples, that this methodology can be used without loss of accuracy and large computational time savings, even when dealing with non-linear behavior.
Reliability based optimization of laminated composite structures using genetic algorithms and Artificial Neural Networks
Gomes, Herbert Martins (author) / Awruch, Armando Miguel (author) / Lopes, Paulo André Menezes (author)
Structural Safety ; 33 ; 186-195
2011-03-01
10 pages
Article (Journal)
Electronic Resource
English
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