Research of the microtube hydroforming (MTHF) process is being investigated for potential medical and fuel cell applications. This is largely due to the fact that at the macroscale the tube hydroforming (THF) process, like most metal forming processes, has realized many advantages, especially when comparing products made using traditional machining processes. Unfortunately, relatively large forces compared to part size and high pressures are required to form the parts so the potential exists to create failed or defective parts. One method to reduce the forces and pressures during MTHF is to incorporate electrically assisted manufacturing (EAM) and electrically assisted forming (EAF) into the MTHF. The intent of both EAM and EAF is to use electrical current to lower the required deformation energy and increase the metal's formability. To reduce the required deformation energy, the applied electricity produces localized heating in the material in order to lower the material's yield stress. In many cases, the previous work has shown that EAF and EAM have resulted in metals being formed further than conventional forming methods alone without sacrificing the strength or ductility. Tests were performed using “as received” and annealed stainless steel 304 tubing. Results shown in this paper indicate that the ultimate tensile strength and bust pressures decrease with increased current while using EAM during MTHF. It was also shown that at high currents the microtubes experienced higher temperatures but were still well below the recrystallization temperature.
Influence of Continuous Direct Current on the Microtube Hydroforming Process
Michigan Technological University,
Houghton, MI 49931
University of Louisiana at Lafayette,
Lafayette, LA 70504
Virginia Polytechnic Institute and State University,
Blacksburg, VA 24061
Manuscript received July 17, 2015; final manuscript received July 8, 2016; published online October 6, 2016. Assoc. Editor: Gracious Ngaile.
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Wagner, S. W., Ng, K., Emblom, W. J., and Camelio, J. A. (October 6, 2016). "Influence of Continuous Direct Current on the Microtube Hydroforming Process." ASME. J. Manuf. Sci. Eng. March 2017; 139(3): 034502. https://doi.org/10.1115/1.4034790
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