Previous studies have shown that the presence of a pulsed electrical current, applied during the deformation process of an aluminum specimen, can significantly improve the formability of the aluminum without heating the metal above its maximum operating temperature range. The research herein extends these findings by examining the effect of electrical pulsing on 5052 and 5083 Aluminum Alloys. Two different parameter sets were used while pulsing three different heat treatments (As Is, 398°C, and 510°C) for each of the two aluminum alloys. For this research, the electrical pulsing is applied to the aluminum while the specimens are deformed, without halting the deformation process. The analysis focuses on establishing the effect the electrical pulsing has on the aluminum alloy’s various heat treatments by examining the displacement of the material throughout the testing region of dogbone shaped specimens. The results from this research show that pulsing significantly increases the maximum achievable elongation of the aluminum (when compared to baseline tests conducted without electrical pulsing). Significantly reducing the engineering flow stress within the material is another beneficial effect produced by electric pulsing. The electrical pulses also cause the aluminum to deform non-uniformly, such that the material exhibits a diffuse neck where the minimum deformation occurs near the ends of the specimen (near the clamps) and the maximum deformation occurs near the center of the specimen (where fracture ultimately occurs). This diffuse necking effect is similar to what can be experienced during superplastic deformation. However, when comparing the presence of a diffuse neck in this research, electrical pulsing does not create as significant of a diffuse neck as superplastic deformation. Electrical pulsing has the potential to be more efficient than traditional methods of incremental forming since the deformation process is never interrupted. Overall, with the greater elongation and lower stress, the aluminum can be deformed quicker, easier, and to a greater extent than is currently possible.
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ASME 2008 International Manufacturing Science and Engineering Conference collocated with the 3rd JSME/ASME International Conference on Materials and Processing
October 7–10, 2008
Evanston, Illinois, USA
Conference Sponsors:
- Manufacturing Engineering Division
ISBN:
978-0-7918-4851-7
PROCEEDINGS PAPER
Effect of Electrical Pulsing on Various Heat Treatments of 5XXX Series Aluminum Alloys
Wesley A. Salandro,
Wesley A. Salandro
Penn State Erie - The Behrend College, Erie, PA
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Joshua J. Jones,
Joshua J. Jones
Penn State Erie - The Behrend College, Erie, PA
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Timothy A. McNeal,
Timothy A. McNeal
Penn State Erie - The Behrend College, Erie, PA
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John T. Roth,
John T. Roth
Penn State Erie - The Behrend College, Erie, PA
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Sung-Tae Hong,
Sung-Tae Hong
Pacific Northwest National Laboratory, Richland, WA
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Mark T. Smith
Mark T. Smith
Pacific Northwest National Laboratory, Richland, WA
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Wesley A. Salandro
Penn State Erie - The Behrend College, Erie, PA
Joshua J. Jones
Penn State Erie - The Behrend College, Erie, PA
Timothy A. McNeal
Penn State Erie - The Behrend College, Erie, PA
John T. Roth
Penn State Erie - The Behrend College, Erie, PA
Sung-Tae Hong
Pacific Northwest National Laboratory, Richland, WA
Mark T. Smith
Pacific Northwest National Laboratory, Richland, WA
Paper No:
MSEC_ICM&P2008-72512, pp. 283-292; 10 pages
Published Online:
July 24, 2009
Citation
Salandro, WA, Jones, JJ, McNeal, TA, Roth, JT, Hong, S, & Smith, MT. "Effect of Electrical Pulsing on Various Heat Treatments of 5XXX Series Aluminum Alloys." Proceedings of the ASME 2008 International Manufacturing Science and Engineering Conference collocated with the 3rd JSME/ASME International Conference on Materials and Processing. ASME 2008 International Manufacturing Science and Engineering Conference, Volume 1. Evanston, Illinois, USA. October 7–10, 2008. pp. 283-292. ASME. https://doi.org/10.1115/MSEC_ICMP2008-72512
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