Open Access
MATEC Web of Conferences
Volume 14, 2014
EUROSUPERALLOYS 2014 – 2nd European Symposium on Superalloys and their Applications
Article Number 17002
Number of page(s) 6
Section Posters: Alloy Development I: Ni Based Alloys
Published online 29 August 2014
  1. D.J. Frasier, et al., “Process and Alloy Optimization for CMSX-4® Superalloy Single Crystal Airfoils,” (Cost 501/505 High Temp Materials for Power Eng 1990 Conf., Liege, Belgium, September, 1990)
  2. J.H. Zhang, et al., “Interfacial Dislocation Networks Strengthening a 4th-Generation SX TMS-138 Superalloy,” Met Trans A, 33A, 3741–3746 (2002) [CrossRef]
  3. R.W. Broomfield, “Development and Turbine Engine Performance of Three Advanced Rhenium Containing Superalloys for Single Crystal and Directionally Solidified Blades and Vanes,” (ASME-IGTI) 97-GT-117
  4. J.B. Wahl, and K. Harris, “New Single Crystal Superalloys, CMSX®-7 and CMSX®-8,” Superalloys 2012, 179–188 (2012)
  5. P.J. Fink, J.L. Miller, and D.G. Konitzer, “Rhenium Reduction – Alloy Design Using an Economically Strategic Element,” JOM, 62 No. 1 55–57 (Jan. 2010) [CrossRef]
  6. W.S. Walston, et al., “Rene' N6: Third Generation Single Crystal Superalloy,” Superalloys 1996, 27–34 (1996)
  7. E.W. Ross, and K.S. O'Hara, “Rene' N4: A First Generation Single Crystal Turbine Airfoil Alloy with Improved Oxidation Resistance Low Angle Boundary Strength,” Superalloys 1996, 19–25 (1996)
  8. K. Harris, G.L. Erickson, and R.E. Schwer, “CMSX® Single Crystal, CM DS & Integral Wheel Alloys Properties & Performance,” (Cost 50/501 Conference “High Temperature Alloys for Gas Turbines & Other Applications”, Liege, Belgium, October, 1986)
  9. Sun, E., private communication with authors, Rolls-Royce Corporation, 1 February 2012