Abstract
This paper deals with optimal shakedown design of truss structures constituted by elastic perfectly plastic material. The design problem is formulated by means of a statical approach on the grounds of the shakedown lower bound theorem, and by means of a kinematical approach on the grounds of the shakedown upper bound theorem. In both cases two different types of design problem are formulated: one searches for the minimum volume design whose shakedown limit load is assigned; the other searches for the maximum shakedown limit load design whose volume is assigned. The Kuhn-Tucker equations of the four problems here above mentioned are found by utilizing a variational approach; these equations prove the equivalence of the two types of design problem and provide useful information on the structure behaviour in optimality conditions. A suitable computational procedure of iterative type devoted to the reaching of the minimum volume design is presented. It is shown that the design obtained by this technique is the optimal one, since it satisfies the optimality conditions of the relevant search problem. In the typical step of this technique the dependency of the elastic response on the design variables is approximately taken into account. In the application stage a numerical example, aimed at utilizing this special technique, is presented.
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Bleich, H. 1932: Über die bemessung statisch unbestimmter Stahlstragwerke unter Berücksichtigung del elastisch-plastischen Verhaltens des Baustoffes. Bauingenieur Vol. 19/20, 261
Borkauskas, A.; Atkociunas, J. 1975: Optimal design for cyclic loading. In Optimization in Structural Design, ed. Sawczuk A. and Mroz Z., Berlin-Heidelberg, Springer-Verlag, 433–440
Capurso, M.; Corradi, L.; Maier, G. 1979: Bounds on deformations and displacements in shakedown theory Matériaux et Structures sous Chargement Cyclique, Ass. Amicale des Ingénieurs Anciens Eléves de l'E.N.P.C., Paris, 231–244
Cohn, M. Z.; Maier, G. 1977: Engineering Plasticity by Mathematical Programming. Oxford, Pergamon Press
Cohn, M. Z.; Parimi, S. R. 1973: Optimal design of plastic structures for fixed and shakedown loading. J. Appl. Mech., Vol. 40: 595–599
Corradi, L.; Zavelani Rossi, A. 1974: A linear programming approach to shakedown analysis of structures. Comp. Meth. Appl. Mech., Vol. 3: 37–53
Giambanco, F.; Palizzolo, L.; Polizzotto, C. 1994a: Optimal shakedown design of beam structures. Structural Optimization, Vol. 8: 156–167
Giambanco, F.; Palizzolo, L. 1994b: Optimal shakedown design of circular plates. J. Eng. Mech., Div. ASCE, Vol. 120, no. 12: 2335–2355
Gill, P. E.; Murray, W.; Saunders, M. A.; Wright, M. H. 1984: QPSOL: A fortran package for quadratic programming. Technical Report SOL 84-6, Dept. Operations Research, Stanford, California
Heyman, J. 1958: Minimum weight of frames under shakedown loading. J. Eng. Mech. Div., EM4, ASCE, paper 1790
Koiter, W. T. 1960: General theorem for elastic-plastic solids. In Progress in Solid Mechanics, Vol. 1, ed. I.M. Sneddon e R. Hill, North-Holland, 165–219
König, J. A. 1975: On optimum shakedown design. In Optimization in Structural Design, ed. Sawczuk A. and Mroz Z., Berlin-Heidelberg, Springer-Verlag, 405–414
König, J. A. 1979: On upper bounds to shakedown loads. Z. Angew. Math. 59: 349–354
König, J. A. 1987: Shakedown of elastic-plastic structures. PWN-Polish Scientific Publishers, Warsaw and Elsevier, Amsterdam
Maier, G.; Zavelani Rossi, A.; Benedetti, D. 1972: A finite element approach to optimal design of plastic structures in plane stress. Int. J. Num. Meth. Eng., Vol. 4: 455–473
Martin, J. B. 1975: Plasticity: Fundamentals and general results. Cambridge, Man.: The MIT Press
Melan, E. 1938a: Der Spannungszustand eines Mises-Henckyschen Kontinuums bei verändilicher Belastung. Stz. Ber. AK. Wiss Wien, IIa, Vol. 147: 73–78
Melan, E. 1938b: Zur Plastizität des räumlichen Kontinuums. Ing. Arch., Vol. 8: 116–126
Panzeca, T.; Polizzotto, C. 1988: On shakedown of elastic plastic solids. Meccanica, Vol. 23: 94–101
Polizzotto, C. 1982: A unified treatment of shakedown theory and related bounding techniques. S. M. Archives, Vol. 7: 19–75
Polizzotto, C. 1984: Shakedown analysis and design in presence of limited ductility behaviour. Eng. Struct., 80, Vol. 6: 80–87
Prager, W. 1957: Shakedown in elastic-plastic media subjected to cycles of load and temperature. Simposio sulla Plasticità nella Scienza delle Costruzioni, Bologna, Italia
Rozvany, G. I. N. 1976. Optimal design of flexural systems. Oxford, Pergamon Press
Rozvany, G. I. N. 1989: Structural design via optimality criteria. Dordrecht, Kluwer Academic Publishers
Save, M. A.; Prager, W. 1985: Structural optimization, New York, Plenum Press
Symonds, P. S. 1951: Shakedown in continuous media. J. Appl. Mech., Vol. 18: 85
Zavelani Rossi, A. 1973: Optimal shakedown design of reinforced concrete beams. Rend. Ist. Lomb., Vol. 105: 147–164
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Communicated by S. N. Atluri, 21 June 1995
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Giambanco, F., Palizzolo, L. Optimality conditions for shakedown design of trusses. Computational Mechanics 16, 369–378 (1995). https://doi.org/10.1007/BF00370559
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DOI: https://doi.org/10.1007/BF00370559