An optimisation method for design of intermediate die shapes needed in some forging operations is presented. The basic problem consists of finding an optimal two‐step forging sequence by automatically designing the shape of the preforming tools. The optimisation problem is defined based on an inverse formulation. The objective function of the optimisation problem is a function describing the quality of the obtained part by measuring the die underfill. The finite element method is used to simulate the forging problem. The optimisation method is based on a modified sequential unconstrained minimisation technique and a gradient method. The sensitivity‐dependent algorithm requires computing the derivatives of the objective function with respect to the design variables defining the preform shapes. A direct differentiation method has been developed for this purpose. The optimisation scheme is demonstrated with two axisymmetric forging examples in which optimal preform dies are obtained.
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1 December 2001
Technical Paper|
December 01 2001
An efficient algorithm to estimate optimal preform die shape parameters in forging
Catarina F. Castro;
Catarina F. Castro
Department of Mechanical Engineering, University of Porto, Portugal
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Luísa Costa Sousa;
Luísa Costa Sousa
Department of Mechanical Engineering, University of Porto, Portugal
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C.A.C. António;
C.A.C. António
Department of Mechanical Engineering, University of Porto, Portugal
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J.M.A. César de Sá
J.M.A. César de Sá
Department of Mechanical Engineering, University of Porto, Portugal
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Publisher: Emerald Publishing
Online ISSN: 1758-7077
Print ISSN: 0264-4401
© MCB UP Limited
2001
Engineering Computations (2001) 18 (8): 1057–1077.
Citation
Castro CF, Costa Sousa L, António C, César de Sá J (2001), "An efficient algorithm to estimate optimal preform die shape parameters in forging". Engineering Computations, Vol. 18 No. 8 pp. 1057–1077, doi: https://doi.org/10.1108/02644400110409168
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