1. Kulkarni, A., "Additive manufacturing of nickel based
superalloy", arXiv preprint arXiv:1805.11664, (2018).
2. Buckingham, R., Argyrakis, C., Hardy, M. and Birosca, S., "The
effect of strain distribution on microstructural developments
during forging in a newly developed nickel base superalloy",
Materials Science and Engineering: A, Vol. 654, (2016), 317-
328.
3. Ges, A., Fornaro, O. and Palacio, H., "Characterization of
solution and precipitation temperature in cmsx-4 superalloy",
Procedia Materials Science, Vol. 8, (2015), 1127-1132.
4. Baldan, A., "Review progress in ostwald ripening theories and
their applications to the γ′-precipitates in nickel-base superalloys
part ii nickel-base superalloys", Journal of Materials Science,
Vol. 37, No. 12, (2002), 2379-2405.
5. Wu, Y., Liu, Y., Li, C., Xia, X., Wu, J. and Li, H., "Coarsening
behavior of γ′ precipitates in the γ'+ γ area of a ni3al-based
alloy", Journal of Alloys and Compounds, Vol. 771, (2019),
526-533.
6. Malcharcziková, J. and Kursa, M., "Structural characteristics of
ni3al based alloys depending on the preparation conditions",
Metalurgija, Vol. 54, No. 4, (2015), 635-638.
7. Papadaki, C., Li, W. and Korsunsky, A., "On the dependence of
γ′ precipitate size in a nickel-based superalloy on the cooling
rate from super-solvus temperature heat treatment", Materials,
Vol. 11, No. 9, (2018), 1528-1538.
8. Rogers, B., "Microstructure development in direct metal laser
sintered inconel alloy 718", Arizona State University, (2017),
9. Mukhopadhyay, S.M., "Sample preparation for microscopic and
spectroscopic characterization of solid surfaces and films",
Chemical Analysis-New York-Interscience Then John Wiley-,
(2003), 377-412.
10. Zhao, S., Xie, X., Smith, G.D. and Patel, S.J., "Gamma prime
coarsening and age-hardening behaviors in a new nickel base
superalloy", Materials Letters, Vol. 58, No. 11, (2004), 1784-
1787.
11. Zupanič, F., Bončina, T., Križman, A. and Tichelaar, F.,
"Structure of continuously cast ni-based superalloy inconel
713c", Journal of Alloys and Compounds, Vol. 329, No. 1-2,
(2001), 290-297.
12. Slama, C. and Abdellaoui, M., "Structural characterization of the
aged inconel 718", Journal of Alloys and Compounds, Vol.
306, No. 1-2, (2000), 277-284.
13. Wanderka, N., Naundorf, V., Banhart, J., Mukherji, D.,
Genovesse, D.D. and Rösler, J., "Microstructural
characterization of inconel 706 alloy", Surface and Interface
Analysis: An International Journal devoted to the development
and application of techniques for the analysis of surfaces,
interfaces and thin films, Vol. 36, No. 5‐6, (2004), 546-551.
14. M., G. and Lapin J., "Morphological changes of Υ’ in ni-based
superalloy during long term aging", in in 17th International
Metallurgical & Materials Conference, METAL 2008, Hradec
nad Moravicí, Czech Republic. (2008).
15. Sharghi-Moshtaghin, R. and Asgari, S., "The influence of
thermal exposure on the γ′ precipitates characteristics and tensile
behavior of superalloy in-738lc", Journal of Materials
Processing Technology, Vol. 147, No. 3, (2004), 343-350.
16. Ayache, J., Beaunier, L., Boumendil, J., Ehret, G. and Laub, D.,
"Sample preparation handbook for transmission electron
microscopy: Techniques, Springer Science & Business Media,
Vol. 2, (2010).
17. Ma, L., "Comparison of different sample preparation techniques
in tem observation of microstructure of inconel alloy 783
subjected to prolonged isothermal exposure", Micron, Vol. 35,
No. 4, (2004), 273-279.
18. Li, C., Habler, G., Baldwin, L.C. and Abart, R., "An improved
fib sample preparation technique for site-specific plan-view
specimens: A new cutting geometry", Ultramicroscopy, Vol.
184, (2018), 310-317.
19. Grosdidier, T., Hazotte, A. and Simon, A., "Precipitation and
dissolution processes in γ/γ′ single crystal nickel-based
superalloys", Materials Science and Engineering: A, Vol. 256,
No. 1-2, (1998), 183-196.