Overview
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Abdelkhalak EL HAMI: University Professor, Laboratoire de Mécanique de Normandie (LMN) INSA, Rouen-Normandie, France
INTRODUCTION
The hydroforming process involves a number of complex phenomena and presents several types of non-linearities (geometric, behavioral law, etc.). Optimizing a hydroforming operation requires a great deal of testing to determine precisely the optimum load paths and obtain a defect-free part. Advances in numerical tools have enabled manufacturers to simulate and optimize their production resources before production begins, with the aim of minimizing the rate of part failure
Most of these techniques combine the finite element method with optimization approaches. With these means, manufacturers can virtually simulate their processes, which helps answer certain questions, mainly concerning the feasibility of the part and also the suitability of the loading path for the correct shape
The aim of this article is to take account of uncertainties in the analysis and optimization of the hydroforming process, in order to improve its stability. This leads to a significant reduction in the number of defective parts, and...
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KEYWORDS
optimization | global reliability | Failure probability | metal forming process | hydroforming
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Metal forming and foundry
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Optimization and reliability of the hydroforming process
Bibliography
Software tools
ANSYS software :
Abaqus finite element software:
Autoform deep-drawn part simulation software:
...Websites
EDIAMEF, an ICTE tool for training through research in the field of material shaping simulation
Events
ESAFORM 2020 – 23 rd International Conference on Material Forming, BTU Cottbus Senftenberg, Platz der Deutschen Einheit 1, Cottbus, Germany
https://sf2m.fr/events/esaform-2020-23rd-international-conference-on-material-forming/
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