Composite Hot Extrusion of Functional Elements

Martin Schwane; Christoph Dahnke; Matthias Haase; Nooman Ben Khalifa; A. Erman Tekkaya

doi:10.4028/www.scientific.net/AMR.1018.223

Paper Titles

A New Approach for the Prediction of Surface and Subsurface Properties after Grinding
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A New Method to Enhance the Accuracy of the Buckling Test Using Modified Yoshida Sample
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Adjusting of Roller Levellers by Finite Element Simulations Including a Closed-Loop Control
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An Improvement of the Time Dependent Method Based on the Coefficient of Correlation for the Determination of the Forming Limit Curve
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Composite Hot Extrusion of Functional Elements
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Considering Anisotropic Material Behaviour of Sheet Metals for Ductile Fracture Prediction
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Design of an Electromagnetic System to Avoid Horizontal Ram Displacement
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Development of a Pneumatic Bulge Test for High Temperatures and Controlled Strain Rates
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Effect of Surface Enlargement and of Viscosity of Lubricants on Friction Behaviour of Advanced High Strength Steel Material during Deep Drawing
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 1018Composite Hot Extrusion of Functional Elements

Composite Hot Extrusion of Functional Elements

Abstract:

The composite extrusion process, which is investigated at the Institute of Forming Technology and Lightweight Construction (IUL), allows the combination of different materials within an aluminum profile. In contrast to the useage of reinforcing elements, this paper focuses on the embedding of functional elements, such as isolated electric conductors. Results of the experimental and numerical investigations are presented within this paper.

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Periodical:

Advanced Materials Research (Volume 1018)

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223-228

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1018.223

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Online since:

September 2014

Authors:

Martin Schwane*, Christoph Dahnke, Matthias Haase, Nooman Ben Khalifa, A. Erman Tekkaya

Keywords:

Aluminum (Al), Extrusion, Simulation

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References

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