Zusammenfassung der Projektergebnisse

The project was aimed on the investigation of the quaternary system Co-Al-W-Ta as a base for new Co-base alloys strengthened by the intermetallic γ’-phase Co3(Al,W). The main task of the project was to support the groups developing these alloys by relevant metallurgical information about this system. The performed investigations provided a large amount of qiuantitative information which can be used for alloy development, e.g.: • The two phase area γ/γ’ in the Co-Al-W-Ta phase diagram at 900°C. • The compositional dependences of the critical temperatures (γ’-solvus, solidus, liquidus). • The element partitioning between γ- and γ’-phases. • The compositional dependence of the γ/γ’-misfit. • The diffusion mobility in the Co-Al-W-Ta system. Two selected quaternary Co-Al-W-Ta alloys were solidified as [001] single-crystals and mechanically tested at temperatures between 20°C and 1200°C. It was shown, that at temperatures below 800-900°C the strength of quaternary Co-base alloys can be at the same level or even higher than of Ni-base superalloys. However at higer temperatures the Co-alloys are much weaker due to the lower γ’-solvus temperature Tsolv . It was shown, that Ta additions, up to about 3 at%, can rise Tsolv slightly above 1100°C but that a further increase of Ta results in an extended precipitation of other undesirable phases. It was found that the concentration ratio Ta/W has to be optimized to get the stable γ/γ’-microstructure. Additionally to the original project plan, two multicomponent γ’-strengthened Co-base alloys with additions of Ti, Cr, Mo and Re were cast, solidified as [001] single-crystals and tested under tension at temperatures between 20°C and 1000°C as well tested for microstructural degradation at 700°C and 800°C. This investigation resolved two problems in development of γ’-strengthened Co-base alloys. The first one regards γ-solution strengthening. The problem is, that the γ-strengthening elements, either preferably (W, Mo) or significantly (Re), partition into the γ’-phase, which reduces their concentration in the γ-matrix. The second problem is the instability of the γ/γ’-microstructure during long thermal exposure due to the γ’→β transformation. Summing up the project results one can draw the following conclusions. The Co-base alloys can not substitute the Ni-base superalloys in high temperature applications (T≥1050°C) such as blades of hot section of aircraft jet engines. But they could substitute some alloys used at lower temperatures (T≤900°C), e.g. conventional Co-base alloys. This field of application could be interesting for γ/γ’ Co-alloys. It was somewhat surprising that the application of the method of gradient DS-castings was not so effective for the investigated system Co-Al-W-Ta compared with that for the Ni-base alloys. The reason is the weaker segregation of the alloying elements in the Co-Al-W-Ta system. On the other hand the application of different types of gradient specimens (diffusional couples, specimens with surface gradients) was found to be very useful.

Projektbezogene Publikationen (Auswahl)

• Advanced EBSD pattern interpretation through iterative post-processing, Microscopy and Microanalysis, Vol. 19, Supplement S2, August (2013) pp. 728-729
  G. Nolze, E. Payton, A. Winkelmann
  
• The backscatter electron signal as an additional tool for phase segmentation in electron backscatter diffraction, Microscopy and Microanalysis, Vol. 19, Issue 4, August (2013) pp. 929-41
  E. J. Payton, G. Nolze
  
• Diffusion processes in multicomponent nickel-base superalloy-nickel system, The Physics of Metals and Metallography, Vol. 115 (2014) pp. 21-29
  A. I. Epishin, T. Link, G. Nolze, I. L. Svetlov, B. S. Bokstein, A.O. Rodin, R. Salivan Neumann, G. Oder
  
• Exploring structural similarities between crystal phases using EBSD pattern comparison, Cryst. Res. Technol. Vol. 49, No. 7 (2014) pp. 490–501
  G. Nolze, A. Winkelmann
  
• Segregation of alloying elements during flat front solidification of γ'-strengthened Co-Al-W-Ta superalloy, Herald of the Russian Foundation of Basic Research, no. 2 (2015) pp. 11-17
  N. V. Petrushin, U. S. Elyutin, U. V. Filonova, R. M. Nazarkin
  
• Single-crystal Co-base superalloy strengthened by γ'-precipitates: structure and mechanical properties, Advanced Engineering Materials, Vol. 17 (2015) pp. 755–760
  N. Petrushin, K. Hvatzkiy, V. Gerasimov, T. Link, A. Epishin, G. Nolze, G. Gerstein, A.
  
• Structural stability of a Co-base superalloy strengthened by intermetallic precipitates of γ'-phase, Deformation and Fracture of Materials, no. 3 (2015) pp. 17-22
  A. I. Epishin, N. V. Petrushin, T. Link, G. Nolze, Yu. V. Loshchinin, G. Gerstein
  
• Modelling interdiffusion in CMSX-10/Ni diffusion couple, Journal of Phase Equilibria and Diffusion, Vol. 37 (2016) pp. 201-211
  A. Chyrkin, A. Epshin, R. Pillai, T. Link, G. Nolze, W. J. Quadakkers