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The Effects of Electron Beam Melting on the Microstructure and Mechanical Properties of Ti-6Al-4V and Gamma-TiAl

  • Tait McLouth (a1), Yuan-Wei Chang (a1), John Wooten (a2) and Jenn-Ming Yang (a1)
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[1] Okazaki, Y., Rao, S., Ito, Y. & Tateishi, T., “Corrosion resistance, mechanical properties, corrosion fatigue strength and cytocompatibility of new Ti alloys without Al and V,” Biomaterials 19 (1998) 11971215.
[2] Okazaki, Y., Nishimura, E., Nakada, H. & Kobayashi, K., “Surface analysis of Ti-15Zr-4Nb-4Ta alloy after implantation in rat tibia,” Biomaterials 22 (2001) 599607.
[3] Eisenbarth, E., Velton, D., Miiller, M., Thull, R. & Breme, J., “Biocompatibility of beta-stabilizing elements of titanium alloys,” Biomaterials 25 (2004) 57055713.
[4] Niinomi, M., “Biologically and Mechanically Biocompatible Titanium Alloys,” Mater. Trans 49 (2008) 21702178.
[5] Franzen, S. F. & Karlsson, Joakim, “y-Titanium Aluminide Manufactured by Electron Beam MeltingSanna Fager Franzen, Joakim Karlsson (2010).
[6] Smith, William F., “Structure and Properties of Engineering Alloys,” Second Ed New York, NY: McGraw-Hill (1993) 201245.

The Effects of Electron Beam Melting on the Microstructure and Mechanical Properties of Ti-6Al-4V and Gamma-TiAl

  • Tait McLouth (a1), Yuan-Wei Chang (a1), John Wooten (a2) and Jenn-Ming Yang (a1)

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