J. G. Kaufman and E. L. Rooy, Aluminum alloy castings: properties, processes, and applications, 2004.

S. S. Manson, Thermal fatigue of die casting dies-A Review and Proposed Future Program, 1972.

J. Sjostrom and J. Bergström, Thermal fatigue in hot-working tools, Scand J Metall, vol.34, issue.4, pp.221-252, 2005.

R. R. Graham and J. F. Wallace, Thermal Processing Structure and Thermal Fatigue Relation for Die Steel, DCRF Technical Bulletin, 1974.

L. Norström, B. Klarenfjord, and M. Svensson, General aspects on "washout" mechanisms in aluminium die casting dies, Transactions of the 17th International Die Casting Congress, pp.219-244, 1993.

Z. W. Chen and M. Z. Jahedi, Die erosion and its effect on soldering formation in high pressure die casting of aluminium alloys, Mater Des, vol.20, issue.6, pp.303-312, 1999.

S. Shankar and D. Apeli, Die soldering-A metallurgical analysis of the molten aluminium/die interface reactions. In: Transactions of the North American Die Casting Association (NADCA) Congress and Exposition, pp.243-51, 1997.

S. Gopal, A. Lakare, and R. Shivpuri, Soldering in die casting: aluminum alloy and die Steel interactions, vol.44, pp.70-81, 2000.

E. Salem and M. , de l'endommagement par fatigue thermique des moules de fonderie sous pression d'aluminium: effet de l'interaction avec l'aluminisation et l'oxydation PhD thesis, 2009.

A. Chacrone, C. Baltzinger, A. Bessières, and J. Heizmann, Kinetic and metallographic study of the formation of the alloy layer during the coating of steel with an aluminium-silicon mixture. Mémoires et Etudes Scientifiques de la Revue de Métallurgie, Revue de Metallurgie, vol.84, issue.9, p.435, 1987.

C. Mitterer, F. Holler, F. Üstel, and D. Heim, Application of hard coatings in aluminium die casting-soldering, erosion and thermal fatigue behaviour, Surf Coat Technol, vol.125, issue.1-3, pp.233-242, 2000.

B. K. Kosec, L. Kosec, and J. Kopa?, Analysis of casting die failures, Eng Fail Anal, vol.8, issue.4, pp.355-364, 2001.

M. Sundqvist and S. Hogmark, Effects of liquid aluminium on hot-work tool steel, Tribol Int, vol.26, pp.129-163, 1993.

V. Joshi, A. Srivastava, and R. Shivpuri, Intermetallic formation and its relation to interface mass loss and tribology in die casting dies, Wear, vol.256, pp.1232-1237, 2004.

Y. Zhu, D. Schwam, J. F. Wallace, and S. Birceanu, Evaluation of soldering, washout and thermal fatigue resistance of advanced metal materials for aluminum die-casting dies, Mater Sci Eng A, vol.379, issue.1-2, pp.420-451, 2004.

Z. W. Chen, Formation and progression of die soldering during high pressure die casting, Mater Sci Eng A, vol.397, pp.356-69, 2005.

A. Persson, S. Hogmark, and J. Bergström, Thermal fatigue cracking of surface engineered hot work tool steels, Surf Coat Technol, vol.191, issue.2, pp.216-243, 2005.

B. Miquel, S. Jean, L. Roux, S. Lamesle, P. Rézaï-aria et al., Heat-checking of hot work tool steels, Eur Struct Integr Soc, vol.29, pp.185-93, 2002.
URL : https://hal.archives-ouvertes.fr/hal-01796853

F. Medjedoub, L. Roux, S. Dour, G. Rézaï-aria, and F. , Effect of local stress on the heatchecking morphology in high temperature tool steels under thermal fatigue: Transition from multi-axiality to uniaxiality, Mech Mater, vol.69, issue.1, pp.159-72, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01611608

R. Danzer, F. Sturm, A. Schindler, and W. Zleppnig, Thermal fatigue cracks in pressure die casting dies, Gisserei-Praxis, vol.19, issue.20, pp.287-97, 1983.

H. Berns, Beispiele zur schädigung von warmarbeitswerkzeugen, J Heat Treat Mater, vol.59, issue.6, pp.379-87, 2004.

N. Tsujii, G. Abe, K. Fukura, and H. Sunada, Effect of testing atmosphere on low cycle fatigue of hot work tool steel at elevated temperature, ISIJ Int, vol.35, pp.920-926, 1995.

M. Howes, A Study of Thermal Fatigue Mechanisms, Proc. Thermal Fatigue of Materials and Components, pp.87-105, 1976.

S. Malm and L. Å. Norström, Material-related model for thermal fatigue applied to tool steels in hot-work applications, Metal Sci, vol.13, issue.9, pp.544-50, 1979.

J. F. Wallace, Y. Wang, and S. Schwam, Effect of composition and processing on the thermal fatigue and toughness of high performance die steel, vol.41, p.26, 1997.

R. Ebner, S. Marsoner, I. Siller, and W. Ecker, Thermal fatigue behaviour of hot-work tool steels: heat check nucleation and growth, Int J Microstruct Mater Prop, vol.3, issue.2-3, pp.182-94, 2008.

F. Medjedoub, G. Dour, L. Roux, S. Lamesle, P. Salem et al., Experimental conditions and environment effects on thermal fatigue damage accumulation and life of die-casting steel X38CrMoV5 (AISI H11), Int J Microstruct Mater Prop, vol.3, issue.2-3, pp.336-385, 2008.
URL : https://hal.archives-ouvertes.fr/hal-01685075

D. Klob?ar, J. Tu?ek, and B. Taljat, Thermal fatigue of materials for die-casting tooling, Mater Sci Eng A, vol.472, pp.198-207, 2008.

J. H. Nicholls, The production and properties of aluminium coatings, Product Finish, vol.15, issue.10, pp.61-69, 1962.

R. Drewett, Diffusion coatings for the protection of iron and steel: Part 1: Aluminium coatings, Anti-Corrosion Methods Mater, vol.16, issue.4, pp.11-17, 1969.

S. Majumdar, B. Paul, V. Kain, and G. K. Dey, Formation of Al 2 O 3 /Fe-Al layers on SS 316 surface by pack aluminizing and heat treatment, Mater Chem Phys, vol.190, pp.31-38, 2017.

A. Medvedeva, J. Bergström, S. Gunnarsson, and J. Andersson, High-temperature properties and microstructural stability of hot-work tool steels, Mater Sci Eng A, vol.523, issue.1, pp.39-46, 2009.

R. Mevrel, C. Duret, and R. Pichoir, Pack cementation processes, Mater Sci Technol, vol.2, issue.3, pp.201-207, 1986.

Z. D. Xiang and P. K. Datta, Relationship between pack chemistry and aluminide coating formation for low-temperature aluminisation of alloy steels, Acta Mater, vol.54, issue.17, pp.4453-63, 2006.

V. Rohr, Development of novel protective high temperature coatings on heat exchanger steels and their corrosion resistance in simulated coal firing environment PhD thesis INP, 2005.

F. Qayyum, M. Shah, O. Shakeel, F. Mukhtar, M. Salem et al., Numerical simulation of thermal fatigue behavior in a cracked disc of AISI H-11 tool steel, Eng Fail Anal, vol.62, pp.242-53, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01799026

M. Salem, V. Velay, C. Cheikh, G. Dour, P. Lamesle et al., Fatigue life modelling of hot forming tools, Proc of 8th International Tooling Conference, pp.455-64, 2009.
URL : https://hal.archives-ouvertes.fr/hal-01685213

M. Schütze, Protective oxide scales and their breakdown, 1997.

D. A. Spera, What is thermal fatigue? Thermal fatigue of materials and components, ASTM STP, vol.612, pp.3-9, 1976.

L. Roux, S. Medjedoub, F. Dour, G. Rézaï-aria, and F. , Role of heat-flux density and mechanical loading on the microscopic heat-checking of high temperature tool steels under thermal fatigue experiments, Int J Fatigue, vol.51, pp.15-25, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01666697

V. Velay, G. Bernhart, and L. Penazzi, Cyclic behavior modeling of a tempered martensitic hot work tool steel, Int J Plasticity, vol.22, issue.3, pp.459-96, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01384440

A. Grüning, M. Lebsanft, and B. Scholtes, Cyclic stress-strain behavior and damage of tool steel AISI H11 under isothermal and thermal fatigue conditions, Mater Sci Eng A, vol.527, issue.7-8, pp.1979-85, 2010.

M. Schütze, Deformation and cracking behavior of protective oxide scales on heatresistant steels under tensile strain, Oxid Met, vol.24, issue.3-4, pp.199-232, 1985.

M. M. Nagl and W. T. Evans, The mechanical failure of oxide scales under tensile or compressive load, J Mater Sci, vol.28, issue.23, pp.6247-60, 1993.

A. Strawbridge and H. E. Evans, Mechanical failure of thin brittle coatings, Eng Fail Anal, vol.2, issue.2, pp.85-103, 1995.

V. Teixeira, Residual stress and cracking in thin PVD coatings, Vacuum, vol.64, issue.3-4, pp.393-402, 2002.

M. Schütze, P. F. Tortorelli, and I. G. Wright, Development of a comprehensive oxide scale failure diagram, Oxid Met, vol.73, pp.389-418, 2010.

M. Potesser, T. Schoeberl, H. Antrekowitsch, and J. Bruckner, The characterization of the intermetallic Fe-Al layer of steel-aluminum weldings, pp.167-76, 2006.

W. Deqing, Phase evolution of an aluminized steel by oxidation treatment, Appl Surf Sci, vol.254, issue.10, pp.3026-3058, 2008.

P. Novák, A. Michalcová, I. Marek, M. Mudrová, K. Saksl et al., On the formation of intermetallics in Fe-Al system-An in situ XRD study, Intermetallics, vol.32, pp.127-163, 2013.

M. Zamanzade, A. Barnoush, and C. Motz, A review on the properties of iron aluminide intermetallics, Crystals, vol.6, issue.1, p.10, 2016.

Z. W. Chen and M. Z. Jahedi, The effect of temperature on soldering and the sequence of formation of the soldered layer during high pressure die casting of Al-11Si-3Cu alloy, Int J Cast Metal Res, vol.11, issue.3, pp.129-167, 1998.

Z. W. Chen, D. T. Fraser, and M. Z. Jahedi, Structures of intermetallic phases formed during immersion of H13 tool steel in an Al-11Si-3Cu die casting alloy melt, Mater Sci Eng A, vol.260, issue.1-2, pp.188-96, 1999.

A. Persson, S. Hogmark, and J. Bergstrom, Failure modes in field-tested brass die casting dies, J Mater Process Technol, vol.148, pp.108-126, 2004.

A. Srivastava, V. Joshi, and R. Shivpuri, Computer modeling and prediction of thermal fatigue cracking in die-casting tooling, Wear, vol.256, pp.38-43, 2004.

M. Muhi?, J. Tu?ek, F. Kosel, D. Klob?ar, and M. Pleterski, Thermal fatigue cracking of diecasting dies, Metalurgija, vol.49, issue.1, pp.9-12, 2010.

B. Navin?ek, P. Panjan, and I. Milo?ev, Industrial applications of CrN (PVD) coatings, deposited at high and low temperatures, Surf Coat Technol, vol.97, issue.1, pp.182-91, 1997.

C. Starling and J. Branco, Thermal fatigue of hot work tool steel with hard coatings, Thin Solid Films, vol.30, issue.8, pp.436-478, 1997.

Y. Wang, A study of PVD coatings and die materials for extended die-casting die life, Surf Coat Technol, vol.94, pp.60-63, 1997.

S. Gulizia, M. Z. Jahedi, and E. D. Doyle, Performance evaluation of PVD coatings for high pressure die casting, Surf Coat Technol, vol.140, issue.3, pp.200-205, 2001.

A. Srivastava, V. Joshi, R. Shivpuri, R. Bhattacharya, and S. Dixit, A multilayer coating architecture to reduce heat checking of die surfaces, Surf Coat Technol, vol.163, pp.631-637, 2003.

I. Peter, M. Rosso, and F. S. Gobber, Study of protective coatings for aluminum die casting molds, Appl Surf Sci, vol.358, pp.563-71, 2015.