, The superalloys, 1972.

, Superalloys: a technical guide, 2002.

E. Nembach and G. Neite, Precipitation hardening of superalloys by ordered ?'-particles, Progress in Materials Science, vol.29, pp.177-319, 1985.

M. Klauke, D. Mukherji, and B. Gorr, Oxidation behaviour of experimental Co-Re-base alloys in laboratory air at 1000°C, International Journal of Materials Research, vol.100, pp.104-111, 2009.

B. Gorr, S. Burk, and T. Depka, Effect of Si addition on the oxidation resistance of Co-Re-Cr-alloys: recent attainments in the development of novel alloys, International Journal of Materials Research, vol.103, pp.24-30, 2012.

C. Cui, D. Ping, and Y. Gu, A new Co-base superalloy strengthened by ?' phase, Materials Transactions, vol.47, pp.2099-2102, 2006.

B. Mishra, M. Ionescu, and T. Chandra, Feasability of cast and wrought Co-Al-W-X gamma prime superalloys, Materials Science Forum, pp.1159-1164, 2013.

B. Gorr, M. Azim, and H. Christ, Microstructure evolution in a new refractory high entropy alloy W-Mo-Cr-Ti-Al, Metallurgical and Materials Transactions A: Physical Metallurgy and Materials Science, vol.47, pp.961-970, 2016.

P. Berthod and . Ta, High temperature properties of several chromium-containing Co-based alloys reinforced by different types of MC carbides, Journal of Alloys and Compounds, vol.481, pp.746-754, 2009.

P. Berthod and E. Conrath, As-cast microstructures and behavior at high temperature of chromium-rich cobalt-based alloys strengthened by hafnium carbides, Materials Chemistry and Physics, vol.143, pp.1139-1148, 2014.

E. Conrath and P. Berthod, Microstructure Evolution at High Temperature of Chromium-Rich Iron-based Alloys containing Hafnium Carbides, International Journal of Materials Research (formerly Z. Metallkd, pp.717-724, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01291826

P. Berthod and E. Conrath, Microstructure evolution in the bulk and surface states of chromium-rich nickel-based cast alloys reinforced by hafnium carbides after exposure to high temperature in air, Materials at High Temperature, vol.31, pp.266-273, 2014.

P. Berthod and E. Conrath, Creep and oxidation kinetics at 1100°C of nickel-base alloys reinforced by hafnium carbides, Materials and Design, vol.104, pp.27-36, 2016.

P. Berthod and E. Conrath, Mechanical and Chemical Properties at High Temperature of {M-25Cr}-based Alloys Containing Hafnium Carbides (M=Co, Ni or Fe): Creep Behavior and Oxidation at 1200°C, Berthod P, Conrath E, Journal of Materials Science and Technology Research, vol.1, pp.7-14, 2014.

P. Berthod, Looking for new polycrystalline MC-reinforced cobalt-based superalloys candidate to applications at 1200°C, Advances in Materials Science and Engineering
URL : https://hal.archives-ouvertes.fr/hal-02011068

P. Berthod, New polycrystalline MC-reinforced nickel-based superalloys for use at elevated temperatures (T >1100°C), Advanced Materials Letters

P. Shaffer, High Temperature Materials. N°1 Materials Index, 1964.

C. T. Sims, Niobium in superalloys: a perspective, High Temperature Technology, issue.2, pp.185-201, 1984.

M. C. Dropmann, D. Stover, and H. P. Buchkremer, Properties and processing of niobium superalloys by injection molding, Advances in Powder Metallurgy and Particulate Materials, vol.8, pp.213-224, 1992.

D. Young, High Temperature Oxidation and Corrosion of Metals, 2008.

Y. Zhai, D. A. Lados, and E. J. Brown, Fatigue crack growth behavior and microstructural mechanisms in Ti-6Al-4V manufactured by laser engineered net shaping, International Journal of Fatigue, vol.93, pp.51-63, 2016.

A. Baldan, Microstructural investigation of DS200 + hafnium superalloy, Zeitschrift für Metallkunde, vol.80, pp.635-642, 1989.

P. S. Kotval, J. D. Venables, and R. W. Calder, Role of hafnium in modifying the microstructure of cast nickel-base superalloys, Metallurgical transactions, vol.3, pp.453-458, 1972.

Y. Murata, K. Suga, and N. Yukawa, Effect of transition elements on the properties of MC carbides in IN-100 nickel-based superalloy, Journal of Material Science, vol.21, pp.3653-3660, 1986.

Z. Opiekun, Influence of zirconium and heat treatment on the structure of heat-resistant cobalt casting alloys of MAR-M509 type, Journal of Material Science, vol.22, pp.1547-1556, 1987.

Y. L. Tsai, S. F. Wang, and H. Y. Bor, Effect of Zr addition of the microstructure and mechanical behavior of a fine-grained nickel-based superalloy at elevated temperature, Materials Science and Engineering A: Structural Materials: Properties, Microstructure and Processing, vol.607, pp.294-201, 2014.

H. Paul, M. Darrieulat, and N. Vanderesse, Microstructyure of warm worked Zircalloy-4, Archives of Metallurgy and Materials, vol.55, pp.1007-1019, 2010.

J. H. Zhu, C. T. Liu, and P. K. Liaw, Phase stability and mechanical behavior of NbCr2-based Laves phases, Intermetallics, vol.7, pp.1011-1016, 1999.