W. E. Frazier, Metal additive manufacturing: a review, J. Mater. Eng. Perform, vol.23, pp.1917-1928, 2014.

K. V. Wong and A. Hernandez, A review of additive manufacturing, ISRN Mechanical Engineering A, vol.1, 2012.

B. Baufeld, O. V. Biest, and R. Gault, Additive manufacturing of Ti-6Al-4V components by shaped metal deposition: microstructure and mechanical properties, Mater. Des, vol.31, pp.106-111, 2010.

. Iso/astm-52900, The Global Leader in Additive Manufacturing Standards-The Committee on Additive Manufactruing Technologies (F42)

, ASTM International Committee F42 on Additive Manufacturing Technologies

R. Berger,

A. Lundb-Ä-k and L. Lingdgren, Finite element simulation to support sustainable production by additive manufacturing, Procedia Manuf, vol.7, pp.127-130, 2017.

L. M. Suave, J. Cormier, P. Villechaise, A. Soula, Z. Hervier et al., Microstructural Evolutions During Thermal Aging of Alloy 625: Impact of Temperature and Forming Process, Metall. Mater. Trans. A, issue.45A, pp.2963-2982, 2014.

S. J. Patel and G. D. Smith, The role of niobium in wrought superalloys, International Symposium Niobium, pp.1081-1102, 2001.

D. Liu, X. Zhang, X. Qin, and Y. Ding, High-temperature mechanical properties of Inconel-625: role of carbides and delta phase, Mater. Sci. Tech, vol.33, pp.1610-1617, 2017.

M. D. Mathew, P. Parameswaran, K. Bhanu-sankara, and . Rao, Microstructural changes in alloy 625 during high temperature creep, Mater. Charact, vol.59, pp.508-513, 2008.

G. Marchese, M. Lorusso, S. Parizia, E. Bassini, J. W. Lee et al., Influence of heat treatments on microstructure evolution and mechanical properties of Inconel 625 processed by laser powder bed fusion, Mater. Sci. Eng. A, vol.729, pp.64-75, 2018.

G. Marchese, X. G. Coera, F. Calignano, M. Lorusso, S. Biamino et al., Characterization and comparison of Inconel 625 processed by selective laser melting and laser metal deposition, Adv. Eng. Mater, vol.19, pp.1-9, 2016.

S. Li, Q. Wei, Y. Shi, Y. Shi, Z. Zhu et al., Microster-by-layer printing of laminated graphene-based interdigitatetured by Selective Laser Melting, J. Mater. Sci. Technol, vol.31, pp.946-952, 2015.

I. Koutiri, E. Pessard, P. Peyre, O. Amlou, and T. D. Terris, Influence of SLM process parameters on the surface finish, porosity rate, and fatigue behavior of as-built Inconel 625 parts, J. Mater. Process. Technol, vol.255, pp.536-546, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01826611

M. Daroonparvar, M. S. Hussain, and M. A. Yajid, The role of formation of continues thermally grown oxide layer on the nanostructured NiCrAlY bond coat during thermal exposure in air, Appl. Surf. Sci, vol.261, pp.287-297, 2012.

W. Leng, R. Pillai, P. Huczkowski, D. Naumenko, and W. J. Quadakkers, Microstructural evolution of an aluminide coating on alloy 625 during wet air exposure at 900°C and 1000°C, Surf. Coat Tech, vol.354, pp.268-280, 2018.

F. A. Khalid, N. Hussain, and A. H. Qureshi, Microstructural study on oxidation of aluminized coating on Inconel 625, vol.11, pp.211-214, 2002.

P. W. Schike, Advanced gas turbine materials and coatings, 2004.

D. R. Clarke, M. Oechsner, and N. P. Padture, Thermal-barrier coatings for more efficient gas-turbine engines, MRS Bull, vol.37, pp.891-898, 2012.

M. J. Donachie and S. J. Donachie, Superalloys: A Technical Guide, ASTM International, the Materials Information Society, pp.0-87170

R. C. Reed, The Superalloys: Fundamentals and Applications, pp.978-978

N. P. Padture, M. Gell, and E. H. Jordan, Thermal barrier coatings for gas-turbine engine applications, Science's compass, vol.296, pp.280-284, 2002.

J. D. Osorio, A. Toro, and J. P. Hernandez-ortiz, Thermal barrier coatings for gas turbine applications: failure mechanisms and key microstructural features, DYNA, vol.79, pp.149-158, 2012.

N. Zotov, M. Bartsch, L. Chernova, D. A. Schmidt, M. Havenith et al., Effects of annealing on the microstructure and the mechanical properties of EB-PVD thermal barrier coatings, Surf. Coat. Tech, vol.205, pp.452-464, 2010.

C. S. Richard, G. Beranger, J. Lu, and J. F. Flavenot, The influences of heat treatments and interdiffusion on the adhesion of plasma-sprayed NiCrAlY coatings, Surf. Coat. Tech, vol.82, pp.2640-2641, 1996.

P. R. Chalker, S. J. Bull, and D. S. Rickerby, A review of the methods for the evaluation of coating-substrate adhesion, Mat. Sci. Eng. A, vol.140, pp.90482-90485, 1991.

Z. H. Liu, D. Q. Zhang, S. L. Sing, C. K. Chua, and L. E. Loh, Interfacial characterization of SLM parts in multi-material processing: metallurgical diffusion between 316L stainless steel and C18400 copper alloy, Mater. Charact, vol.94, pp.116-125, 2014.

J. Chen, Y. Yang, C. Song, M. Zhang, S. Wu et al., Interfacial microstructure and mechanical properties of 316L/CuSn10 multi-material bimetallic structure fabricated by selective laser melting, Mat. Sci. Eng. A, vol.752, pp.75-85, 2019.

S. L. Sing, L. P. Lam, D. Q. Zhang, Z. H. Liu, and C. K. Chua, Interfacial characterization of SLM parts in multi-material processing: intermetallic phase formation between AlSi10Mg and C18400 copper alloy, Mater. Charact, vol.107, pp.220-227, 2015.

A. G. Demir and B. Previtali, Multi-material selective laser melting of Fe/Al-12Si components, Manuf. Lett, vol.11, pp.8-11, 2017.

C. Wei, L. Li, X. Zhang, and Y. Chueh, 3D printing of multiple metallic materials via modified selective laser melting, CIRP Ann. Manuf. Technol, vol.67, pp.245-248, 2018.

K. Partes, C. Giolli, F. Borgioli, U. Bardi, T. Seefeld et al., High temperature behavior of NiCrAlY coatings made by laser cladding, Surf. Coat. Tech, vol.202, pp.2208-2213, 2008.

M. J. Tobar, J. M. Amado, A. Yanez, J. C. Pereira, and C. Amigo, Laser cladding of MCrAlY coatings on stainless steel, Phys. Procedia, vol.56, pp.276-283, 2014.

R. Vilar, E. C. Santos, P. N. Ferreira, N. Franco, and R. C. Da-silva, Structure of NiCrAlY coatings deposited on single-crystal alloy turbine blade material by laser cladding, Acta Mater, vol.57, pp.5292-5302, 2009.

Y. Chivel, New approach to multi-material processing in selective laser melting, Phys. Procedia, vol.83, pp.891-898, 2016.

J. Koopmann, J. Voigt, and T. Niendorf, Additive manufacturing of a steel-ceramic multi-material by selective laser melting, Metall. Mater. Trans. B, vol.50, pp.1042-1051, 2019.

Y. Sakakibara and K. Kubushiro, Stress evaluation at the maximum strained state by EBSD and several residual stress measurements for plastic deformed austenitic stainless steel, World J. Mech, vol.7, pp.195-210, 2017.

L. Saraf, Kernel average misorientation confidence index correlation from FIB sliced Ni-Fe-Cr alloy surface, Microsc. Microanal, vol.17, pp.424-425, 2011.

M. Calagnotto, D. Ponge, E. Demir, and D. Raabe, Orientation gradients and geometrically necessary dislocations in ultrfine grained dual-phase steels studied by 2D and 3D EBSD, Mat. Sci. Eng. A, vol.527, pp.2738-2746, 2010.

J. Hou, Q. J. Peng, Z. P. Lu, T. Shoji, J. Q. Wang et al., Effects of cold working degrees on grain boundary characters and strain concentration at grain boundaries in Alloy 600, Corros. Sci, vol.53, pp.1137-1142, 2011.

D. J. Badiola, A. I. Mendia, and I. Gutierrez, Study by EBSD of the development of the substructure in a hot deformed 304 stainless steel, Mat. Sci. Eng. A, vol.394, pp.445-454, 2005.

M. Terner, T. Bayarsaikhan, H. Hong, and J. Lee, Influence of gas metal arc welding parameters on the bead properties in automatic cladding, J. Korean Weld. Join. Soc, vol.35, pp.16-25, 2017.

T. Debroy, H. L. Wei, J. S. Zuback, T. Mukherjee, J. W. Elmer et al., Additive manufacturing of metallic components-Process, structure and properties, Prog. Mater. Sci, vol.92, pp.112-224, 2018.

J. Y. Lee, S. H. Ko, D. F. Farson, and C. D. Yoo, Mechanism of keyhole formation and stability in stationary laser welding, J. Phys. D Appl. Phys, vol.35, pp.1570-1576, 2002.

E. Akman, A. Demir, T. Canel, and T. Sinmaz?elik, Laser welding of Ti6Al4V titanium alloys, J. Mater. Process. Technol, vol.209, pp.3705-3713, 2009.

X. Su, Y. Yang, and J. Liu, Theoretical study on overlapping mechanism in SLM based on interlayer-staggered scan strategy, Appl. Mech. Mater, vol.44, pp.1482-1486, 2010.

E. R. Denlinger and P. Michaleris, Effect of stress relaxation on distortion in additive manufacturing process modeling, Addit. Manuf, vol.12, pp.51-59, 2016.

D. Texier, D. Monceau, Z. Hervier, and E. Andrieu, Effect of interdiffusion on mechanical and thermal expansion properties at high temperature of a MCrAlY coated Nibased superalloy, Surf. Coat. Tech, vol.307, pp.81-90, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01564782

J. S. Bartlett and X. Li, An overview of residual stresses in metal powder bed fusion, Addit. Manuf, vol.27, pp.131-149, 2019.

L. E. Murr, S. M. Gaytan, D. A. Ramirez, E. Martinez, J. Hernandez et al., Metal fabrication by additive manufacturing using laser and electron beam melting technologies, J. Mater. Sci. Technol, vol.28, pp.1-14, 2012.

J. Lee, Additive Manufacturing, vol.31, p.100998, 2020.