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Design sensitivity and shape optimization of geometrical nonlinear structure

Published online by Cambridge University Press:  17 May 2008

Said Abid ,
Abdessalem Jarraya ,
Fakhreddine Dammak  and
Mohamed Haddar
Said Abid
Affiliation:
Mechanical, Modelisation and Manufacturing Unit (U2MP), National School of Engineers of Sfax (ENIS), BP W 3038 Sfax, Tunisia
Abdessalem Jarraya
Affiliation:
Mechanical, Modelisation and Manufacturing Unit (U2MP), National School of Engineers of Sfax (ENIS), BP W 3038 Sfax, Tunisia
Fakhreddine Dammak
Affiliation:
Mechanical, Modelisation and Manufacturing Unit (U2MP), National School of Engineers of Sfax (ENIS), BP W 3038 Sfax, Tunisia
Mohamed Haddar
Affiliation:
Mechanical, Modelisation and Manufacturing Unit (U2MP), National School of Engineers of Sfax (ENIS), BP W 3038 Sfax, Tunisia
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Abstract

This paper presents the structural shape optimization with linear elastic material, large displacement and small strains. The whole shape optimization process is carried out by coupling a closed geometric shape in R2 with boundaries defined by B-splines curves, automatic mesh generation at each iteration, exact sensitivity analysis and mathematical programming method (SQP: Sequential Quadratic Programming). The design variables are the control point's coordinates which minimize the Von-Mises criteria, with a constraint that the total material volume of the structure remains constant. In this work the sensitivity analysis is performed using two methods: numerically by an efficient finite difference scheme and by the new method called exact Jacobian method. The feasibility of the proposed method is carried out for two numerical examples.

Keywords

Geometrical nonlinearityfinite-elementsshape optimizationparameterizationsensitivity analysisSQP methodOptimisation de formenon-linéarités géométriqueséléments-finissensibilité exacteparamétrisation méthode S.Q.P.
Type
Research Article
Information
Mechanics & Industry , Volume 9 , Issue 1 , January 2008 , pp. 17 - 23
Copyright
© AFM, EDP Sciences, 2008

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References

J. Canales, A. Hernandez, M.F. Izaguirre, J.A. Tarrago, An integrated system for shape optimal design using a parametric geometric model and adaptive mesh refinement STRUCOME, 1992, 621–632
R. Younsi, Optimisation de forme de structures tridimensionnelles, Thèse de Doctorat de l'Université de Technologie de Compiègne, 1993
H. Naceur, Contribution à l'optimisation de forme de structures minces en présence de non linéarités géométriques et matérielles, Thèse de Doctorat de l'Université de Technologie de Compiègne, 1998
Dems, K., Haftka, R.T., Two approaches to sensitivity analysis, for shape variation of structures, Mech. Struct. Mach 16 (1988) 501522 CrossRef
Haftka, R.T., Adelman, H.L.M., Recent developments in structural sensitivity analysis, Structural Optimization 1 (1989) 137151 CrossRef
Srikanth, A., Zabaras, N., Shape optimization and preform design in metal forming processes, Comput. Methods Appl. Mech. Engrg. 190 (2000) 18591901 CrossRef
G. David, Phelan, An adjoint variable method for sensitivity analysis of nonlinear elastic systems, Int. J. numerical methods in engineering (1991) 1649–1667
Yatheendhar, M., Belegundu, A.D., Analytical shape sensitivity by implicit differentiation for general velocity fields, Comput. Structures 46 (1993) 617623 CrossRef
Kim, N.H., Choi, K.K., Design sensitivity analysis and optimization of nonlinear transient dynamics, Mech. Structures and Machines 29 (2001) 351371 CrossRef
Song, X., Baldwin, J.D., A novel node-based structural shape optimization algorithm Computers and structures 70 (1999) 569581
Rohan, E., Whiteman, J.R., Shape optimization of elasto-plastic structures and continua Comput. Methods Appl. Mech. Engrg. 187 (2000) 261288 CrossRef
Kim, N.H., Dong, J., Choi, K.K., Vlahopoulos, N., Ma, Z.D., Castanier, M.P., Pierre, C., Design sensitivity analysis for a sequential structural-acoustic problem, J. Sound Vib. 263 (2003) 569591 CrossRef
Oral, S., Mindlin, A plate finite element with semi-analytical shape design sensitivities, Computers and Structures 78 (2000) 467472 CrossRef
Tanaka, M., Noguchi, H., Structural shape optimization of hyperelastic material by discrete force method, Theoret. App. Mech. Japan 53 (2004) 8391
Azegami, H., Domain, Z.C. Wu optimization analysis in linear elastic problems: Approach using traction method, JSME Int. J., Se. A: Mech. Mat. Eng. 39 (1996) 272278
Uysala, H., Gula, R., Uzmanb, U., Optimum shape design of shell structures, Eng. Structures 29 (2007) 8087 CrossRef
E.J. Haug, K.K. Choi, V. Komkov, Design sensitivity analysis of structural systems, New York: Academic Press, 1986
Santos, J.L.T., Choi, K.K., Shape design sensitivity analysis of nonlinear structural systems, Struct. Optim. 4 (1992) 2335 CrossRef
Grindeanu, I., Chang, K.H., Choi, K.K., Chen, J.S., Design sensitivity analysis of hyper-elastic structures using a meshless method, AIAA J. 36 (1987) 618628 CrossRef
D.F. Rogers, J.A. Adams, Mathematical elements for computer graphics, McGraw-Hill, 1990