Abstract
The Magnesium Front End Research & Development (MFERD) project is an effort jointly sponsored by the United States Department of Energy, the United States Automotive Materials Partnership (USAMP), the Chinese Ministry of Science and Technology and Natural Resources Canada (NRCan) to demonstrate the technical and economic feasibility of a magnesium-intensive automotive front end body structure which offers improved fuel economy and performance benefits in a multi-material automotive structure. The project examines novel magnesium automotive body applications and processes, beyond conventional die castings, including wrought components (sheet or extrusions) and high-integrity body castings. This paper outlines the scope of work and organization for the collaborative (tri-country) task teams. The project has the goals of developing key enabling technologies and knowledge base for increased magnesium automotive body applications. The MFERD project began in early 2007 by initiating R&D in the following areas: crashworthiness, NVH, fatigue and durability, corrosion and surface finishing, extrusion and forming, sheet and forming, high-integrity body casting, as well as joining and assembly. Additionally, the MFERD project is also linked to the Integrated Computational Materials Engineering (ICME) project that will investigate the processing/structure/properties relations for various magnesium alloys and manufacturing processes utilizing advanced computer-aided engineering and modeling tools.
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References
J.A. Carpenter, J. Jackman, N. Li, R.J. Osborne, B.R. Powell and P. Sklad, “Automotive Magnesium Research and Development in North America”, Materials Science Forum, 2007, vols. 546–549, pp. 11–24.
W. Shi, X. Zhang and Q. Wang, “Magnesium Research and Development in China”, presentation at Magnesium Technology Symposium, TMS Annual Meeting, Orlando, FL, USA, February 25 — March 1, 2007.
K.U. Kainer, “Magnesium — Alloys and Technologies”, Wiley-VCH, Weinheim, Germany, 2003.
A.A. Luo, “Magnesium: Current and Potential Automotive Applications”, JOM Journal of Metals, 2002, 54, (2), pp. 42–48.
G.S. Cole, “Issues that Influence Magnesium’s Use in the Automotive Industry”, Magnesium Alloys 2003, Materials Science Forum, Trans Tech, Switzerland, 2003, vols. 419–422, pp. 43–50.
S. Schumann and H. Friedrich, “Current and Future Use of Magnesium in the Automobile Industry”, ibid, pp. 51–56.
A.A. Luo, “Recent Magnesium Alloy Development for Automotive Powertrain Applications”, ibid, pp. 57–66.
T. Kaneko and M. Suzuki, “Automotive Applications of Magnesium Alloys”, ibid, pp. 67–72.
J.S. Balzer, P.K. Dellock, M.H. Maj, G.S. Cole, D. Reed, T. Davis, T. Lawson and G. Simonds: “Structural Magnesium Front End Support”, SAE Technical Paper 2003-01-0185 (SAE International, Warrendale, PA, 2003).
M. Hoeschl, W. Wagener and J. Wolf, “BMW’s Magnesium-Aluminium Composite Crankcase, State-of-the-Art Light Metal Casting and Manufacturing”, SAE Technical Paper 2006-01-0069, SAE International, Warrendale, PA, 2006.
C.J. Duke and S. Logan, “Lightweight Magnesium Spare Tire Carrier”, Proceedings of the 64th Annual World Magnesium Conference, International Magnesium Association, Wauconda, IL 60084, USA, 75–80.
BMW Group, “Aluminum Use in the New BMW 5&6 Series: Strategy and Experiences”, presentation at the Aluminum Association Automotive Seminar, Livonia, MI, USA, Nov. 16, 2004.
A.A. Luo and R.C. McCune, “Magnesium Front End — AMD 603 and AMD 604”, Automotive Lightweighting Materials, The United States Department of Energy FY 2006 Progress Report, January 2007.
M.H. Maj and T. N. Meyer, “Ultra-Large Castings of Aluminum and Magnesium”, Automotive Lightweighting Materials, The United States Department of Energy FY 2005 Progress Report, August 2006.
Z. Liu, presentation at the “Magnesium Front End Research & Development” crashworthiness team web-meeting, July 19, 2007.
N. Atalia, “Numerical Modeling of Acoustic Performance of Magnesium Alloy flat Panels in Automobiles”, Progress report 1, PWGCS, 2007.
S. Logan, A. Kizyma, C. Patterson and S. Rama, “Lightweight Magnesium Intensive Body Structure”, SAE Technical Paper 2006-01-0523, SAE International, Warrendale, PA, 2006.
S. Begum, D.L. Chen S. Xu and A.A. Luo, “Low Cycle Fatigue Properties of An Extruded AZ31 Magnesium Alloy”, paper to be submitted for publication, Oct. 2007.
B. Yuan, S. Yuan, B.-L. Jiang and F. Yuan, “Corrosion Resistance of Magnesium Alloy with Complex Surface-Modifying Micro-Arc Oxidation Coating and Organic Coating Studied by Neutral Salt Spraying”, Materials Protection, 2006, 9.
J. Villafuerte and W. Zheng, “Corrosion Protection of Magnesium Alloys by Cold Spray” Advanced Materials and Processes, September 2007, 53–54.
A.A. Luo and A.K. Sachdev, “Wrought Magnesium Research for Automotive Applications”, Magnesium Technology 2006, eds. A.A. Luo, N.R. Neelameggham, and R.S. Beals, TMS, Warrendale, PA, 2006, 333–339.
A.A. Luo and A.K. Sachdev: “Development of a New Wrought Magnesium-Aluminum-Manganese Alloy AM30”, Metallurgical and Materials Transactions A, 2007, 38A, 1184–1192.
M. Yang, F. Pan, R. Cheng and A. Tang, “Effects of Solutionized Al-10Sr Master Alloys on Grain Refinement of AZ31 Magnesium Alloy”, Journal of Alloys and Compounds, 2007, in press.
A.A. Luo and A.K. Sachdev, “Development of a Moderate Temperature Bending Process for Magnesium Alloy Extrusions”, Materials Science Forum, 2005, 488–489, 447–482.
P. Martin, D. Baragar, K.P. Boyle, A.A. Luo, J.J. Jonas, S. Godet, K.W. Neale, “Elevated Temperature Property Measurements for Warm Forming Aluminum Alloy Tubes”, in Proceedings of the 2nd International Light Metals Technology Conference 2005, Ed. Helmut Kaufmann, June 8–10, 2005, St. Wolfgang, Austria. 51–56.
W.H. Hunt Jr. and D.R. Herling, “Cost Assessment of Emerging Magnesium Sheet Production Methods”, United States Department of Energy Report, PNNL-15368, September 2005.
R. Verma, unpublished work, GM R&D, June 2007.
P.E. Krajewski, “Elevated Temperature Forming of Sheet Magnesium Alloys”, in Magnesium Technology 2002, ed. H.I. Kaplan, TMS, Warrendale, PA, 2002, pp. 175–179.
R. Verma and J.T. Carter, “Quick Plastic Forming of a Decklid Inner Panel with Commercial AZ31 Magnesium Sheet”, SAE Technical Paper 2006-01-0525, SAE International, Warrendale, PA, 2006.
USAMP AMD604 Casting Task Team, “Magnesium Front End Research & Development” project casting trial, Contech, Dowagiac, MI, October 23, 2007.
A.A. Luo, “Wrought Magnesium Alloys and Manufacturing Processes for Automotive Applications”, SAE Technical Paper 2005-01-0734, SAE International, Warrendale, PA, 2005.
G. Song, L. Liu and P.C. Wang, “Overlap Welding of Magnesium AZ31B Sheets Using Laser-Arc Hybrid Process”, Materials Science and Engineering A, 2006, 429 (1–2), 312–319.
L. Liu, Z. Zhang and G. Song, “Mechanism and Microstructure of Oxide Fluxes for Gas Tungsten Arc Welding of Magnesium Alloy”, Metallurgical and Materials Transactions A. 2007, 38 (3), 649–658.
X. Cao and M. Jahazi, “Use of Laser and Friction Stir Welding for Aerospace Magnesium Alloys”, Proceedings of the 3rd International Conference on Light Metals Technology 2007, September 24–26, 2007, Saint-Sauveur, Quebec, Canada.
J. Allison, B. Liu, K. Boyle, Randy Beals and L. Hector, Integrated Computational Materials Engineering (ICME) for Magnesium: An International Pilot Project”, presentation in Magnesium Technology 2008, TMS Annual Meeting, March 9–13, 2008, New Orleans, Louisiana, USA, 2008.
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Luo, A.A., Nyberg, E.A., Sadayappan, K., Shi, W. (2016). Magnesium Front End Research and Development: A Canada-China-USA Collaboration. In: Mathaudhu, S.N., Luo, A.A., Neelameggham, N.R., Nyberg, E.A., Sillekens, W.H. (eds) Essential Readings in Magnesium Technology. Springer, Cham. https://doi.org/10.1007/978-3-319-48099-2_6
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