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Automotive Tube Bending and Tubular Hydroforming with Extruded Aluminium Profiles
Technical Paper
2000-01-2670
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Side Member Left and Side Member Right, which go from bumper to bumper, were at the focus in the present study. These side members were produced using straight round (hollow with a circular cross-section) extruded aluminium profiles as tube material. The tubes were bent and hydroformed.
Rotary-draw bending yielded the best result. A spread within 8 mm after bending was found to be acceptable provided that the bent tube was hydroformed with a high maximum internal pressure (1300 bars in this study).
Pressure-assisted tool (hydroforming tool) closure should be preferred. Such a tool closure prevents formation of buckles, which may be difficult to straighten out completely during hydroforming.
Planeness and parallelity of the press tables and adapters play a significant role, as far as the spread and inplaneness of hydroformed components are concerned. The hydroforming tool must be matched in the press that actually will be used. Proper evacuation (of particularly air) is essential, especially in long hydroforming tools. All cross sections must be deformed at least 2% (average perimeter enlargement), if the hydroformed components are to exhibit a reasonable spread.
The critical (fracture) cross-sections predicted by finite-element simulation correspond to those found in practical tests. However, the finite-element simulation was not able to predict formation of wrinkles at the tube ends caused by excessively large strokes. Such wrinkles were obtained in practice.
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Citation
Asnafi, N., Nilsson, T., and Lassl, G., "Automotive Tube Bending and Tubular Hydroforming with Extruded Aluminium Profiles," SAE Technical Paper 2000-01-2670, 2000, https://doi.org/10.4271/2000-01-2670.Also In
References
- Asnafi Nader “Analytical modelling of tube hydroforming” Thin-Walled Structures 34 2000 295 330
- Asnafi, Nader Skogsgårdh Anders “Theoretical and experimental analysis of stroke-controlled tube hydroforming” Materials Science and Engineering A279 2000 95 110