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Structural and Multidisciplinary Optimization
Erschienen in: Structural and Multidisciplinary Optimization 3/2019

03.10.2018 | Research Paper

Robust design optimization of laminated plates under uncertain bounded buckling loads

verfasst von: A. Kaveh, A. Dadras, N. Geran Malek

Erschienen in: Structural and Multidisciplinary Optimization | Ausgabe 3/2019

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Abstract

In this paper, a new systematic approach is suggested for better exploration of given uncertain buckling loads in the problem of optimal designs of hybrid symmetric laminated composites. Laminated composites are made up of 16-layered carbon-epoxy, glass-epoxy, and hybrid carbon-glass plies with discrete ply angles as design variables. In the analysis, the ply angles and the type of constituents in the laminates are varied, and one source of uncertainty, namely, uncertainty in buckling load is incorporated. In order to form nested optimization, a new improved rank-based version of Quantum-inspired Evolutionary Algorithm (QEA) is proposed and different versions of QEA and Genetic Algorithm (GA) are utilized. Using anti-optimization approach, the worst case biaxial compressive loading is obtained by Golden Section Search (GSS) method and the buckling load capacity is maximized. Numerical results of the optimal configurations are obtained under several bi-axial loading cases, panel aspect ratios, and materials. The results are investigated from different perspectives and sensitivity analyses are performed.
Vorheriger Artikel Topology optimization of dynamic stress response reliability of continuum structures involving multi-phase materials
Nächster Artikel Strength-based topology optimisation of plastic isotropic von Mises materials

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Literatur
Abrate S (1994) Optimal design of laminated plates and shells. Compos Struct 29:269–286CrossRef
Adali S, Lene F, Duvaut G, Chiaruttini V (2003) Optimization of laminated composites subject to uncertain buckling loads. Compos Struct 62:261–269CrossRef
Çarbaş S, Saka MP (2012) Optimum topology design of various geometrically nonlinear latticed domes using improved harmony search method. Struct Multidiscip Optim 45:377–399CrossRef
de Almeida FS (2016) Stacking sequence optimization for maximum buckling load of composite plates using harmony search algorithm. Compos Struct 143:287–299CrossRef
Elishakoff I, Haftka R, Fang J (1994) Structural design under bounded uncertainty—optimization with anti-optimization. Comput Struct 53:1401–1405CrossRefMATH
Fang C, Springer GS (1993) Design of composite laminates by a Monte Carlo method. J Compos Mater 27:721–753CrossRef
Ghiasi H, Fayazbakhsh K, Pasini D, Lessard L (2010) Optimum stacking sequence design of composite materials part II: variable stiffness design. Compos Struct 93:1–13CrossRef
Goldberg DE, Deb K (1991) A comparative analysis of selection schemes used in genetic algorithms. In: Foundations of genetic algorithms, vol 1. Elsevier, New York, pp 69–93
Goldberg DE, Holland JH (1988) Genetic algorithms and machine learning. Mach Learn 3:95–99CrossRef
Han K-H, Kim J-H (2002) Quantum-inspired evolutionary algorithm for a class of combinatorial optimization. IEEE Trans Evol Comput 6:580–593CrossRef
Hey T (1999) Quantum computing: an introduction. Comput Control Eng J 10:105–112
Holland JH (1992) Adaptation in natural and artificial systems: an introductory analysis with applications to biology, control, and artificial intelligence, 2nd edn. MIT Press, CambridgeCrossRef
Huang J, Haftka R (2005) Optimization of fiber orientations near a hole for increased load-carrying capacity of composite laminates. Struct Multidiscip Optim 30:335–341CrossRef
Hussain K, Salleh MNM, Cheng S, Shi Y (2018) Metaheuristic research: a comprehensive survey. Artif Intell Rev:1–43
Kalantari M, Dong C, Davies IJ (2017) Effect of matrix voids, fibre misalignment and thickness variation on multi-objective robust optimization of carbon/glass fibre-reinforced hybrid composites under flexural loading. Compos Part B 123:136–147CrossRef
Kaveh A (2017a) Advances in metaheuristic algorithms for optimal design of structures, 2nd edn. Springer International Publishing, BaselCrossRefMATH
Kaveh A (2017b) Applications of metaheuristic optimization algorithms in civil engineering Springer, Switzerland
Kaveh A, Ilchi Ghazaan M (2015) A comparative study of CBO and ECBO for optimal design of skeletal structures. Comput Struct 153:137–147CrossRef
Lee D, Morillo C, Oller S, Bugeda G, Oñate E (2013) Robust design optimisation of advance hybrid (fiber–metal) composite structures. Compos Struct 99:181–192CrossRef
Liu B, Haftka R, Trompette P (2004) Maximization of buckling loads of composite panels using flexural lamination parameters. Struct Multidiscip Optim 26:28–36CrossRef
Liu D, Toropov VV, Barton DC, Querin OM (2015) Weight and mechanical performance optimization of blended composite wing panels using lamination parameters. Struct Multidiscip Optim 52:549–562MathSciNetCrossRef
Lombardi M, Haftka RT (1998) Anti-optimization technique for structural design under load uncertainties. Comput Methods Appl Mech Eng 157:19–31CrossRefMATH
Nemeth MP (1986) Importance of anisotropy on buckling of compression-loaded symmetric composite plates. AIAA J 24:1831–1835CrossRef
Reddy JN (2004) Mechanics of laminated composite plates and shells: theory and analysis, 2nd edn. CRC Press, Boca RatonCrossRefMATH
Reis P, Ferreira J, Antunes F, Costa J (2007) Flexural behaviour of hybrid laminated composites. Compos A Appl Sci Manuf 38:1612–1620CrossRef
Saka M, Erdal F (2009) Harmony search based algorithm for the optimum design of grillage systems to LRFD-AISC. Struct Multidiscip Optim 38:25–41CrossRef
Setoodeh S, Abdalla MM, Gürdal Z (2006) Design of variable–stiffness laminates using lamination parameters. Compos Part B 37:301–309CrossRef
Sivanandam S, Deepa S (2007) Introduction to genetic algorithms. Springer Science & Business Media, BerlinMATH
Sivanandam S, Deepa S (2008) Genetic algorithm optimization problems. In: Introduction to genetic algorithms. Springer, Berlin, pp 165–209CrossRef
Soremekun G, Gürdal Z, Haftka R, Watson L (2001) Composite laminate design optimization by genetic algorithm with generalized elitist selection. Comput Struct 79:131–143CrossRef
Tejani GG, Savsani VJ, Patel VK (2016) Adaptive symbiotic organisms search (SOS) algorithm for structural design optimization. J Comput Des Eng 3:226–249
Venkataraman S, Haftka RT (1999) Optimization of composite panels-a review. In: Proc Amer Soc Compos. pp 479–488
Metadaten
Titel
Robust design optimization of laminated plates under uncertain bounded buckling loads
verfasst von
A. Kaveh
A. Dadras
N. Geran Malek
Publikationsdatum
03.10.2018
Verlag
Springer Berlin Heidelberg
Erschienen in
Structural and Multidisciplinary Optimization / Ausgabe 3/2019
Print ISSN: 1615-147X
Elektronische ISSN: 1615-1488
DOI
https://doi.org/10.1007/s00158-018-2106-0

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