For metals, deformation is commonly conducted at elevated temperatures, reducing the overall process energy and cost. However, elevating the temperature has many drawbacks, including high tool/die adhesions, environmental reactivity, etc. Therefore, this study examines using an electrical current to reduce the deformation energy and presents electricity’s effects on the tensile properties of various materials. The influences of strain rate and cold work are also investigated. The results demonstrate that, when current flows through a metallic specimen, the material’s yield strength, flow stress, and elastic modulus are decreased; strain weakening occurs; and the total energy of deformation is decreased. These changes in the engineering stress-strain behavior occurred in all of the materials tested and are much greater than can be accounted for by resistive heating. However, the effects diminish with increasing strain rate. The analysis shows that applying electricity during deformation provides a viable alternative to increasing the workpiece temperature for deformation-based manufacturing processes.
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April 2007
Technical Briefs
Manufacturing Aspects Relating to the Effects of Direct Current on the Tensile Properties of Metals
Carl D. Ross,
Carl D. Ross
Penn State Erie
, The Behrend College, Erie, PA 16563
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David B. Irvin,
David B. Irvin
Penn State Erie
, The Behrend College, Erie, PA 16563
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John T. Roth
John T. Roth
Penn State Erie
, The Behrend College, Erie, PA 16563
Search for other works by this author on:
Carl D. Ross
Penn State Erie
, The Behrend College, Erie, PA 16563
David B. Irvin
Penn State Erie
, The Behrend College, Erie, PA 16563
John T. Roth
Penn State Erie
, The Behrend College, Erie, PA 16563J. Eng. Mater. Technol. Apr 2007, 129(2): 342-347 (6 pages)
Published Online: January 18, 2007
Article history
Received:
December 30, 2005
Revised:
January 18, 2007
Citation
Ross, C. D., Irvin, D. B., and Roth, J. T. (January 18, 2007). "Manufacturing Aspects Relating to the Effects of Direct Current on the Tensile Properties of Metals." ASME. J. Eng. Mater. Technol. April 2007; 129(2): 342–347. https://doi.org/10.1115/1.2712470
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