Analysis and design optimization of deep drawing process. Part II: Optimization

Journal of Materials Processing Technology

Volumn 184, Issue 1-3, 2007, Pages 84-92

  Sattari, H ^a   Sedaghati, R ^a   Ganesan, R ^a  

^a Gina Cody School of Engineering and Computer Science   (Canada)

Author keywords

Finite strain elasto plasticity; Optimization; Sequential quadratic programming (Quasi Newton method); Sheet metal forming; Shell element; Total and Updated Lagrangian approach

Indexed keywords

FINITE ELEMENT METHOD; LAGRANGE MULTIPLIERS; METAL FORMING; OPTIMIZATION; PLASTICITY; QUADRATIC PROGRAMMING; SENSITIVITY ANALYSIS; STRAIN MEASUREMENT;

FINITE STRAIN ELASTO PLASTICITY; UPDATED LAGRANGIAN APPROACH (TUL);

DEEP DRAWING;

EID: 33846813445     PISSN: 09240136     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jmatprotec.2006.11.008     Document Type: Article

References (31)

1. H. Sattari, R. Ganesan, R. Sedaghati, Analysis and design optimization of deep drawing process. Part 1. Three dimensional finite element and sensitivity analysis, J. Mater. Process. Technol., submitted for publication.
2. B. Kroplin, E. Luckey (Eds.), Metal forming process simulation in industry, in: International Conference and Workshop, Baden-Baden, Germany, 28-30, 1994.
3. J.K. Lee, G.L. Kinzel, R. Wagoner, Numerical simulation of 3D sheet metal forming processes, verification of simulations with experiments, in: Third International Conference on NUMISHEET 96, the Ohio State University, Dearborn, MI, September 29-October 3, 1994.
4. Gerdeen J.C., and Chen P. Geometric mapping method of computer modeling of sheet metal forming. NUMISHEET 89 (1989) 437-444
5. Chung K., and Lee D. Computer-aided analysis of sheet material forming processes. First International Conference on Technology of Plasticity, vol. 1, Tokyo, Japan (1984) 660-665
6. Sklad M.P., and Yungblud B.A. Analysis of multi-operation sheet forming processes. NUMISHEET 92 (1992) 543-547
7. Chung K., and Richmond O. Sheet forming process design on ideal forming theory. NUMISHEET 92 (1992) 455-460
8. Batoz J.L., Duroux P., Guo Y.Q., and Detraux J.M. An efficient algorithm to estimate the large strains in deep drawing. NUMISHEET 89 (1989) 383-388
9. Batoz J.L., Naceur H., Barlet O., Guo Y.Q., and Knopf-Lenoir C. Optimum design of blank contours in axisymmetrical deep drawing process. In: Wan-Xie Z., Geng-dong C., and Xi-Kui Li (Eds). Advances in Computational Mechanics (1996), International Academic Publisher, Beijing, China 113-125
10. Guo Y.Q., Batoz J.L., Naceur H., Bouabdallah S., Mercier F., and Barlet O. Recent developments on the analysis and optimum design of sheet metal forming parts using a simplified inverse approach. Comput. Struct. 78 (2000) 133-148
11. Naceur H., Delaméziere A., Batoz J.L., Guo Y.Q., and Knopf-Lenoir C. Some improvements on the optimum process design in deep drawing using the inverse approach. J. Mater. Process. Technol. 146 2 (2004) 250-262
12. O. Barlet, J.-L. Batoz, Y.Q. Guo, F. Mercier, H. Naceur, C. Knopf-Lenoir, The inverse approach and mathematical programming techniques for optimum design of sheet forming parts, ESDA 96', 3rd. Biennial European Joint Conference on Engineering Systems Design and Analysis, Montpellier, France, July 1-4, 1996. © ASME 1996, PD-vol. 75, Eng. Syst. Des. Anal. Vol. 3, pp. 227-232.
13. Chateau X. A simplified approach for sheet forming processes design. Int. J. Mech. Sci. 36 6 (1994) 579-597
14. Dhatt G., Touzot G., and Maloine S.A. Une présentation de la méthode des éléments finis (1981), L'Université Laval Québec, Paris
15. J.L. Batoz, G. Dhatt, Modélisation des structures par éléments finis, vol. 3, Coques, Ed. Hermès, Paris, 1992.
16. Oñate E., Kleiber M., and Agelet de Saracibar C. Plastic and viscoplastic flow of void-containing metals. Applications to axisymmetric sheet forming problems. Int. J. Numer. Methods Eng. 25 (1988) 227-251
17. Matthies H., and Strang G. The solution of nonlinear finite element equations. Int. J. Numer. Methods Eng. 14 (1979) 1613-1626
18. Owen D.R.J., and Hinton E. Finite elements in Plasticity: Theory and Practice (1980), Pineridge press, Swansea
19. D. Peric, D.R.J. Owen, M.E. Honnor, Simulation of thin sheet metal forming processes employing a thin shell element. FE simulation of 3-D sheet metal forming processes in automotive industry, VDI Verlag, Zürich, pp. 569-600, 1991.
20. Hibbitt H.D., Marcal P.V., and Rice J.R. A finite element formulation for problems of large strain and large displacement. Int. J. Solids Struct. 6 (1970) 1069-1086
21. McMeeking R.M., and Rice J.R. Finite-element formulations for problems of large elastic-plastic deformation. Int. J. Solids Struct. 11 (1975) 601-616
22. Washizu K. Variational Methods in Elasticity and Plasticity. third ed. (1982), Pergamon, Oxford
23. Lee E.H. Elastic-plastic deformation at finite strains. J. Appl. Mech. 36 (1969) 1-6
24. Chung T.J. Continuum Mechanics (1988), Prentice Hall, New Jersey
25. Arora J.S. Introduction to Optimum Design (1989), McGraw-Hill Book Company
26. Vanderplaats G.N. Numerical Optimization Techniques for Engineering Design With Applications (1984), McGraw-Hill Inc.
27. Topping B.H.V., and Robinson D.J. Selecting non-linear optimization techniques for structural design. Intl. J. Comput. Aided Eng. Software Eng. Comput. 1 3 (1984)
28. Prasad B., and Haftka R.T. Optimal structural design with plate finite elements. ASCE, J. Struct. Div. 105 ST11 (1979)
29. Rohan E., and Whiteman J.R. Shape optimization of elasto-plastic structures and continua. Comput. Methods Appl. Mech. Eng. (2000)
30. Schweizerhof K.H., and Wriggers P. Consistent linearization for path following methods in nonlinear FE analysis. Comput. Methods Appl. Mechan. Eng. 59 (1986) 261-279
31. Forde W.R.B., and Stiemer S.F. Improved arc-length orthogonality methods for nonlinear finite element analysis. Comput. Struct. 27 5 (1987) 625-630