Prediction and validation of shape distortions in the simulation of high pressure die casting

Prediction and validation of shape distortions in the simulation of high pressure die casting

The use of the thermomechanical simulation is very infrequent in the metal casting industry although the associated results are really useful for the manufacturing process. The main reasons are the complexity, the long calculation times and the difficulties to interpret the results. The parts manufa...

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Bibliographic Details
Published in:Journal of manufacturing processes Vol. 33; pp. 228 - 237
Main Authors: Anglada, Eva, Meléndez, Antton, Vicario, Iban, Idoiaga, Jon Kepa, Mugarza, Aitz, Arratibel, Ernesto
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-06-2018
Subjects:
Aluminum alloy
Finite elements
HPDC
Numerical simulation
Shape distortion
Thermal stress
Thermal stress
Finite elements
Numerical simulation
Shape distortion
HPDC
Aluminum alloy
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Summary:The use of the thermomechanical simulation is very infrequent in the metal casting industry although the associated results are really useful for the manufacturing process. The main reasons are the complexity, the long calculation times and the difficulties to interpret the results. The parts manufactured by metal casting processes cool from its filling temperature to ambient, which causes a certain stress-strain state. Although the stress levels might be significant, the main worry of the foundrymen is usually the shape distortion. That is, the mismatches between the desired dimensions and the real ones. The problem is that the results obtained from numerical simulation are not directly useful to cover this industrial necessity. This work presents the prediction obtained using the thermomechanical simulation for the final dimensions of a component manufactured in aluminium alloy by high pressure die casting (HPDC) and its validation with the final dimensions of the manufactured component. The methodology established to forecast the mismatches with the reference geometry is also detailed, as it may be useful to encourage the use of this type of simulation in the metal casting industry.
ISSN:1526-6125
2212-4616
DOI:10.1016/j.jmapro.2018.05.019