https://orcid.org/0000-0003-3888-5011
References
- Industrial applications of heat resistant materials. In: Davis JR, editor. ASM Specialty Handbook. Heat resistant materials. Ohio: ASM International. 1997; p. 67–85.
- Dossett JL, Boyer HE. Practical heat treating. Ohio: ASM International; 2006.
- Lo KH, Shek CH, Lai JKL, et al. Recent developments in stainless steels. Mater Sci Eng R. 2009;65(4–6):39–104.
- Piekarski B. Damage of heat-resistant castings in a carburizing furnace. Eng Fail Anal. 2010;17(1):143–149.
- Garbiak M, Jasiński W, Piekarsk B. Materials for Reformer Furnace Tubes. History of evolution. Arch Foundry Eng. 2011;11(2):47–52.
- Piekarski B, Drotlew A. Cast grates used in heat treatment furnaces. Arch Foundry Eng. 2019;19(3):49–54.
- Drotlew A, Garbiak M, Piekarski B. Cast steels for creep-resistant parts used in heat treatment plants. Arch Foundry Eng. 2012;12(4):31–38.
- Bochnakowski W, Szyller Ł, Osetek M. Damage characterization of belt conveyor made of the 330Nb alloy after service in a carburizing atmosphere in a continuous heat treatment furnace. Eng Fail Anal. 2019;103:173–183.
- Standard EN 10295:2002. Heat resistant steel castings;
- Gutowski P: Analysis of cracking causes in grates used in carburising furnaces, Diss., Politechnika Szczecińska, Szczecin, 1989 (in Polish);
- Gutowski P, Kubicki J. Determination of tessellated stresses in stable multiphase casting alloys under cyclic temperature changes. Soldificat Metals Alloys. 1992;16:97–102.
- Tuleja J . Numerical modelling of micro-stresses in carbonised austenitic cast steel under rapid cooling conditions. Arch Metall Mater. 2017;62(2):635–641.
- Bajwoluk A, Gutowski P. Stress and crack propagation in the surface layer of carburized stable austenitic alloys during cooling. Mater High Temp. 2019;36(1):9–18.
- Bajwoluk A, Gutowski P. Thermal stresses in the accessories of heat treatment furnaces vs cooling kinetics. Arch Foundry Eng. 2019;19(3):88–93.
- Nandwana D, Bhupendra, NK, Tushar, B, et al. Design finite element analysis and optimization of HRC trays used in heat treatment process, Proceedings of the World Congress on Engineering WCE; London; 2010. (II), 1149–1154.
- Reihani A, Razavi SA, Abbasi E, et al. Failure analysis of welded radiant tubes made of cast heat-resisting steel. J Fail Anal Prev. 2013;13(6):658–665.
- Gonzalez-Ciordia B, Fernández B, Artola G, et al. Failure-analysis based redesign of furnace conveyor system components: a case study. Metals. 2019;9(8):816.
- Srikanth S, Saravanan P, Khalkho B, et al. Failure analysis of inconel 601 radiant tubes in continuous annealing furnace of hot dip galvanizing line. J Fail Anal Prev. 2021;21(3):747–758.
- Ul-Hamid A, Tawancy, H.M., AL-JAROUDI, S.S., et al. Carburisation of Fe–Ni–Cr alloys at high temperatures. Mater Sci. 2006;24(2/1):319–331.
- Schnaas A, Grabke HJ. High-Temperature corrosion and creep of Ni-Cr-Fe Alloys in carburizing and oxidizing environments. Oxid Met. 1978;12(5):387–404.
- Laszlo F. Tessellated stresses. J Iron Steel Inst. 1943;147:173–199.
- Zienkiewicz OC. Finite element method in engineering science. London: McGraw-Hill; 1971.
- Midas NFX 2017: Analysis Manual, 2017;
- Church B.C., Sanders, T.H., Speyer, R.F., Cochran, J.K., et al. Thermal expansion matching and oxidation resistance of Fe–Ni–Cr interconnect alloys, mater. Sci Eng. 2007;A452-453:334–340.
- Shaffer PTB. Plenum press handbooks of high-temperature materials. New York: Springer Science + Business Media; 1964.
- Schutze M. Protective oxide scales and their breakdown. Holmes DR, Ed. Chichester: Institute of Corrosion, John Wiley & Sons: 1997.
- Huntz AM. Stresses in NiO, Cr2O3, and A2O3, oxide. Mater Sci Eng A. 1995;201(1–2):211–228.
- Richard CS, Lu J, Béranger G, et al. Study of Cr203 coatings Part I: microstructures and modulus. J Therm Spray Technol. 1995;4(4):342–346.
- Pang X, Gao K, Volinsky AA, et al. Microstructure and mechanical properties of chromium oxide coatings. J Mater Res. 2007;22(12):3531–3537.
- Ji. A L, Wang W, Song GH, et al. Microstructures and mechanical properties of chromium oxide films by arc ion plating. Mater Lett. 2004;58(14):1993–1998.
- Barshilia HC, Rajam KS. Growth and characterization of chromium oxide coatings prepared by pulsed-direct current reactive unbalanced magnetron sputtering. Appl Surf Sci. 2008;255(5):2925–2931.
- Gaillac R, Pullumbi, P, Coudert, FX, et al. ELATE: an open-source online application for analysis and visualization of elastic tensors. J. Phys: Condens. Matter. 2016;28(27): 275201.