13th International Conference on Fracture June 16–21, 2013, Beijing, China -10- microstructural evolution of PtAl diffusion coating on Ni-based superalloy influenced by creep process, The 4th Conference on the Integrity of High Temperature Welds & 9th International Conference on Creep and Fatigue. (2012). [13] Z. Hashin, S. Shtrikman, A Variational Approach to the Theory of the Effective Magnetic Permeability of Multiphase Materials, J. Appl. Phys. 33 (1962) 3125-3131. [14] J. Agren, Numerical Treatment of Diffusional Reactions in Multicomponent Alloys, J. Phys. Chem. Solids. 43 (1982) 385-391. [15] Thermo-Calc Software AB, Thermodynamic and Mobility Databases Overview, (2011). [16] A. Lasalmonie, J.L. Strudel, Influence of Grain Size on the Mechanical Behaviour of Some High Strength Materials, J. Mater. Sci. 21 (1986) 1837-1852. [17] F.T. Furillo, J.M. Davidson, J.K. Tien, L.A. Jackman, The Effects of Grain Boundary Carbides on the Creep and Back Stress of a Nickel--Base Superalloy, Mater.Sci.Eng. 39 (1979) 267-273. [18] Q.Z. Chen, N. Jones, D.M. Knowles, The microstructures of base/modified RR2072 SX superalloys and their effects on creep properties at elevated temperatures, Acta Mater. (USA). 50 (2002) 1095-1112. [19] Q.Z. Chen, C.N. Jones, D.M. Knowles, The grain boundary microstructures of the base and modified RR 2072 bicrystal superalloys and their effects on the creep properties, Mater. Sci. Eng., A. 385 (2004) 402-418. [20] K. Aning, J.K. Tien, Creep and stress rupture behavior of a wrought nickel-base superalloy in air and vacuum, Mater. Sci. and Eng. 43 (1980) 23-33. [21] J.M. Larson, Carbide Morphology in P/M IN-792, Metall.Trans.A. 7A (1976) 1497-1502. [22] R. Lowrie, D.H. Boone, Composite coatings of CoCrAlY plus platinum, Thin Solid Films. 45 (1977) 491-498. [23] K. Schneider, H.W. Grünling, Mechanical aspects of high temperature coatings, Thin Solid Films. 107 (1983) 395-416. [24] M. Alam, D. Chatterjee, S. Kamat, V. Jayaram, D. Das, Evaluation of ductile-brittle transition temperature (DBTT) of aluminide bond coats by micro-tensile test method, Mater. Sci. Eng., A: Structural Materials: Properties, Microstructures and Processing. 527 (2010) 7147-7150. [25] P. Hancock, H.H. Chien, J.R. Nicholls, D.J. Stephenson, In situ measurements of the mechanical properties of aluminide coatings, Surf. and Coat. Technol. 43–44, Part 1 (1990) 359-370. [26] S. Bose, High Temperature Coatings, Butterworth-Heinemann, Oxford, 2007. [27] T. Narita, A View of Compatible Heat-Resistant Alloy and Coating Systems at High-Temperatures, Proceedings of the International Workshop On Advanced Material For New and Renewable Energy. (2009) 63-67. [28] T.K. Chaki, A.K. Singh, K. Sadananda, Effects of CoCrAlY coating on microstructural stability and creep behavior of a nickel-base superalloy, Thin Solid Films. 168 (1989) 207-220.
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