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Structural and Multidisciplinary Optimization
Erschienen in: Structural and Multidisciplinary Optimization 2/2018

15.08.2017 | RESEARCH PAPER

Topology optimization of nonlinear structures with damping under arbitrary dynamic loading

verfasst von: Mahmoud Alfouneh, Liyong Tong

Erschienen in: Structural and Multidisciplinary Optimization | Ausgabe 2/2018

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Abstract

This study presents an extended unit load method in which the displacement of a chosen degree of freedom (DOF) in a nonlinear structure under arbitrary dynamic loading is expressed as an integration of mutual strain energy density over a continuum domain. This new integral formulation for the displacement of a chosen DOF is developed by using the virtual work principle and can be used for linear or nonlinear structural behaviours. The integral form of the displacement is then used to develop new formulations for structural topology optimization involving arbitrary dynamic loading using the moving iso-surface threshold (MIST) method. Presented are two specific topology optimization problems with two objective functions: (a) to minimize the peak of a chosen displacement; or (b) to minimize the average power spectral density (PSD) of the chosen displacement over a finite time interval. New MIST formulations and algorithms are developed for solving two damping topology optimization problems of a structure under arbitrary dynamic loading, with or without large displacements, and having cellular damping materials with multi-volume fractions. Several numerical examples are presented to demonstrate the validity and efficiency of the presented unit load method and the MIST formulations and algorithms.
Vorheriger Artikel Stochastic optimization methods for ship resistance and operational efficiency via CFD
Nächster Artikel A robust optimization approach based on multi-fidelity metamodel

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Literatur
Akoussan K, Boudaoud H, Koutsawa Y et al (2016) Sensitivity analysis of the damping properties of viscoelastic composite structures according to the layers thicknesses. Compos Struct 149:11–25CrossRef
Choi W, Park G (2002) Structural optimization using equivalent static loads at all time intervals. Comput Methods Appl Mech Eng 191(19):2105–2122CrossRefMATH
de Lima AMG, Stoppa MH, Rade DA et al (2006) Sensitivity analysis of viscoelastic structures. Shock Vib 13(4–5):545–558CrossRef
Grandhi RV, Haftka RT, Watson LT (1986a) Design-oriented identification of critical times in transient-response. AIAA J 24(4):649–656CrossRef
Grandhi RV, Haftka RT, Watson LT (1986b) Efficient identification of critical stresses in structures subject to dynamic loads. Comput Struct 22(3):373–386CrossRef
Hilton HH (2010) A sensitivity analysis of linear and nonlinear elastic and viscoelastic panel responses. Appl Math Sci 4(76):3841–3867MathSciNetMATH
Kang B, Choi W, Park G (2001) Structural optimization under equivalent static loads transformed from dynamic loads based on displacement. Comput Struct 79(2):145–154CrossRef
Kang B-S, Park G-J, Arora JS (2006) A review of optimization of structures subjected to transient loads. Struct Multidiscip Optim 31(2):81–95MathSciNetCrossRefMATH
Kang Z, Zhang X, Jiang S et al (2012) On topology optimization of damping layer in shell structures under harmonic excitations. Struct Multidiscip Optim 46(1):51–67MathSciNetCrossRefMATH
Kim Y-I, Park G-J (2010) Nonlinear dynamic response structural optimization using equivalent static loads. Comput Methods Appl Mech Eng 199(9):660–676CrossRefMATH
Kim Y-I, Park GJ, Kolonay RM et al (2009) Nonlinear dynamic response structural optimization of a joined-wing using equivalent static loads. J Aircr 46(3):821–831CrossRef
Kleiber M, Hien TD, Antunez H et al (1997) Parameter sensitivity in nonlinear mechanics: theory and finite element computations. Wiley, New York
Lee HA, Park GJ (2015) Nonlinear dynamic response topology optimization using the equivalent static loads method. Comput Methods Appl Mech Eng 283:956–970MathSciNetCrossRef
Luo Q, Tong L (2015a) Design and testing for shape control of piezoelectric structures using topology optimization. Eng Struct 97:90–104CrossRef
Luo Q, Tong L (2015b) Optimal designs for vibrating structures using a moving isosurface threshold method with experimental study. J Vib Acoust Trans ASME 137(6):061005-1-13CrossRef
Luo Q, Tong L (2016) An algorithm for eradicating the effects of void elements on structural topology optimization for nonlinear compliance. Struct Multidiscip Optim 53(4):695–714MathSciNetCrossRef
Michaleris P, Tortorelli DA, Vidal CA (1994) Tangent operators and design sensitivity formulations for transient non-linear coupled problems with applications to elastoplasticity. Int J Numer Methods Eng 37(14):2471–2499CrossRefMATH
Min S, Kikuchi N, Park YC et al (1999) Optimal topology design of structures under dynamic loads. Struct Optim 17(2–3):208–218
Stanford B, Beran P, Kurdi M (2010) Adjoint sensitivities of time-periodic nonlinear structural dynamics via model reduction. Comput Struct 88(19):1110–1123CrossRef
Tong L, Lin J (2011) Structural topology optimization with implicit design variable—optimality and algorithm. Finite Elem Anal Des 47(8):922–932CrossRef
Tong L, Luo Q (2016) Design of cellular structures with multi-volume fractions using topology optimization. Chin J Comput Mech 33(4):516–521
Van Keulen F, Haftka R, Kim N (2005) Review of options for structural design sensitivity analysis. Part 1: linear systems. Comput Methods Appl Mech Eng 194(30):3213–3243CrossRefMATH
Vasista S, Tong L (2014) Topology optimisation via the moving iso-surface threshold method: implementation and application. Aeronaut J 118(1201):315–342CrossRef
Wang BP, Cheng G (2016) Can damping be ignored in transient structural dynamic optimization? Struct Multidiscip Optim 54(2):197–198MathSciNetCrossRef
Yan K, Cheng G, Wang BP (2016) Topology optimization of plate structures subject to initial excitations for minimum dynamic performance index. Struct Multidiscip Optim 53(3):623–633MathSciNetCrossRef
Metadaten
Titel
Topology optimization of nonlinear structures with damping under arbitrary dynamic loading
verfasst von
Mahmoud Alfouneh
Liyong Tong
Publikationsdatum
15.08.2017
Verlag
Springer Berlin Heidelberg
Erschienen in
Structural and Multidisciplinary Optimization / Ausgabe 2/2018
Print ISSN: 1615-147X
Elektronische ISSN: 1615-1488
DOI
https://doi.org/10.1007/s00158-017-1765-6

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