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Inicio  /  Applied Sciences  /  Vol: 9 Par: 9 (2019)  /  Artículo
ARTÍCULO
TITULO

Design Optimization of the Aeronautical Sheet Hydroforming Process Using the Taguchi Method

Aurelio Muñoz-Rubio    
David Bienvenido-Huertas    
Francisco Javier Bermúdez-Rodríguez and Manuel Tornell-Barbosa    

Resumen

The aluminium alloy sheet forming processes forging in rubber pad and diaphragm presses (also known as hydroforming processes) are simple and economical processes adapted to aeronautical production. Typical defects of these processes are elastic recovery, necking, and wrinkling, and they present difficulties in control mainly due to property variations of the sheet material that take place during the process. In order to make these processes robust and unresponsive to material variations, a multiobjective optimization methodology based on the Taguchi method is proposed in the present study. The design of experiments and process simulation are combined in the methodology, using the nonlinear finite element method. The properties of sheet material are considered noise factors of the hydroforming process, the objective being to find a combination of the control factors that causes minimal defects to noise factors. The methodology was applied to an AA2024-T3 aluminium alloy sheet of 1 mm thickness stamping process in a diaphragm press. The results allowed us to establish the optimal pressure values, friction coefficient between sheet and block, and friction coefficient between sheet and rubber to reduce the elastic recovery variations and the minimal thickness before noise facts.

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Revista: Applied Sciences