A review on development and application of self-healing thermal barrier composite coatings
Keywords:Thermal barrier coating (TBC), TBC lifetime, TBC modification, Self-healing composite
To improve the hot section metallic parts durability in advanced gas-turbine operating in power generation and aircraft, thermal barrier coating (TBCs) are extensively utilized to increase their lifetime. The reason for applying coatings on these components is the improvement of their physical properties, mechanical properties, and outer look. The self-repairing ability of materials is very promising due to expanding the service time of materials and it is also beneficial in terms of human safety and financial aspects. In this review article, structure, properties, limitations, and the modification approaches of TBCs were studied. In addition, self-healing agents for TBCs including SiC, MoSi2, TiC were introduced, which release their oxide by reaction with air and O2 that are able to heal the pores/cracks in the coatings. In this regard, their coating methods, mechanism, and applications in TBCs were reviewed.
B. Zhou, S. Yang, C. Wang, X. Hu, W. Song, J. Cai, Q. Xu, N. Sang, The characterization of free radical reaction in coal low-temperature oxidation with different oxygen concentration, Fuel 262 (2020) 116524.
I. Tajzad, E. Ghasali, Production methods of CNT-reinforced Al matrix composites: a review, Journal of Composites and Compounds 2(1) (2020) 1-9.
J. Daraei, Production and characterization of PCL (Polycaprolactone) coated TCP/nanoBG composite scaffolds by sponge foam method for orthopedic applications, Journal of Composites and Compounds 2(1) (2020) 45-50.
Z. Goudarzi, A. Ijadi, A. Bakhtiari, S. Eskandarinezhad, N. Azizabadi, M.A. Jazi, Sr-doped bioactive glasses for biological applications, Journal of Composites and Compounds 2(3) (2020) 105-109.
H. Ullah, K.A. M Azizli, Z.B. Man, M.B.C. Ismail, M.I. Khan, The Potential of Microencapsulated Self-healing Materials for Microcracks Recovery in Self-healing Composite Systems: A Review, Polymer Reviews 56(3) (2016) 429-485.
S.O. Omid, Z. Goudarzi, L.M. Kangarshahi, A. Mokhtarzade, F. Bahrami, Self-expanding stents based on shape memory alloys and shape memory polymers, Journal of Composites and Compounds 2(3) (2020) 92-98.
M. Arefian, M. Hojjati, I. Tajzad, A. Mokhtarzade, M. Mazhar, A. Jamavari, A review of Polyvinyl alcohol/Carboxiy methyl cellulose (PVA/CMC) composites for various applications, Journal of Composites and Compounds 2(3) (2020) 69-76.
F. Nozahic, D. Monceau, C. Estournes, Thermal cycling and reactivity of a MoSi2/ZrO2 composite designed for self-healing thermal barrier coatings, Materials & Design 94 (2016) 444-448.
Z. Derelioglu, S. Ponnusami, S. Turteltaub, S. Van der Zwaag, W. Sloof, Healing particles in self-healing thermal barrier coatings, (2013).
S. Nasibi, K. Alimohammadi, L. Bazli, S. Eskandarinezhad, A. Mohammadi, N. Sheysi, TZNT alloy for surgical implant applications: A systematic review, Journal of Composites and Compounds 2(3) (2020) 62-68.
M.D. Hager, Self-healing materials, Handbook of Solid State Chemistry (2017) 201-225.
K. Zhang, H.W. Jang, Q. Van Le, Production methods of ceramic-reinforced Al-Li matrix composites: A review, Journal of Composites and Compounds 2(3) (2020) 77-84.
L.-Y. Yu, R.-L. Li, H.-L. Wu, S.-F. Zhang, M.-W. Chai, X.-X. Shen, M. Hong, H. Lin, Selective Removal of Cu2+ Ion in Aqueous Solution by Poly (Acrylic Acid/Acrylamide) Hydrogel, Chinese Journal of Analytical Chemistry 48(8) (2020) e20098-e20106.
C. Chen, S. Chen, Z. Guo, W. Hu, Z. Chen, J. Wang, J. Hu, J. Guo, L. Yang, Highly efficient self-healing materials with excellent shape memory and unprecedented mechanical properties, Journal of Materials Chemistry A (2020).
Z.-Y. Wei, B. Cheng, J. Wang, M.-J. Liu, H.-N. Cai, Extend the thermal cyclic lifetime of La2Zr2O7/YSZ DCL TBCs by reducing modulus design on a toughening ceramic surface, Surface and Coatings Technology 374 (2019) 134-143.
H. Xia, C. Li, H. Chen, Green preparation of CuI particles in dielectric barrier discharge for colorimetric determination of trace mercury in comparison with atomic fluorescence spectrometric determination, Microchemical Journal 146 (2019) 1169-1172.
A.L. Carabat, M.J. Meijerink, J.C. Brouwer, E.M. Kelder, J.R. van Ommen, S. van der Zwaag, W.G. Sloof, Protecting the MoSi2 healing particles for thermal barrier coatings using a sol-gel produced Al2O3 coating, Journal of the European Ceramic Society 38(7) (2018) 2728-2734.
M. Belmonte, Advanced Ceramic Materials for High Temperature Applications, Advanced Engineering Materials 8(8) (2006) 693-703.
F. Cernuschi, P. Bison, A. Moscatelli, Microstructural characterization of porous thermal barrier coatings by laser flash technique, Acta Materialia 57(12) (2009) 3460-3471.
M. Dietrich, V. Verlotski, R. Vassen, D. Stover, Metal-Glass Based Composites for Novel TBC-Systems, Materialwissenschaft und Werkstofftechnik: Materials Science and Engineering Technology 32(8) (2001) 669-672.
T. Ouyang, X. Fang, Y. Zhang, D. Liu, Y. Wang, S. Feng, T. Zhou, S. Cai, J. Suo, Enhancement of high temperature oxidation resistance and spallation resistance of SiC-self-healing thermal barrier coatings, Surface and Coatings Technology 286 (2016) 365-375.
C. Yu, H. Liu, C. Jiang, Z. Bao, S. Zhu, F. Wang, Modification of NiCoCrAlY with Pt: Part II. Application in TBC with pure metastable tetragonal (t') phase YSZ and thermal cycling behavior, Journal of materials science & technology 35(3) (2019) 350-359.
G. Pulci, J. Tirillo, F. Marra, F. Sarasini, A. Bellucci, T. Valente, C. Bartuli, High temperature oxidation of MCrAlY coatings modified by Al2O3 PVD overlay, Surface and Coatings Technology 268 (2015) 198-204.
K.M. Doleker, Y. Ozgurluk, A.C. Karaoglanli, Isothermal oxidation and thermal cyclic behaviors of YSZ and double-layered YSZ/La2Zr2O7 thermal barrier coatings (TBCs), Surface and Coatings Technology 351 (2018) 78-88.
M. Mohammadi, A. Kobayashi, S. Javadpour, S. Jahromi, Evaluation of hot corrosion behaviors of Al2O3-YSZ composite TBC on gradient MCrAlY coatings in the presence of Na2SO4-NaVO3 salt, Vacuum 167 (2019) 547-553.
S. Mahade, D. Zhou, N. Curry, N. Markocsan, P. Nylen, R. Vaben, Tailored microstructures of gadolinium zirconate/YSZ multi-layered thermal barrier coatings produced by suspension plasma spray: Durability and erosion testing, Journal of Materials Processing Technology 264 (2019) 283-294.
M. Bahamirian, S. Hadavi, M. Farvizi, A. Keyvani, M. Rahimipour, Thermal Durability of YSZ/Nanostructured Gd2Zr2O7 TBC Undergoing Thermal Cycling, Oxidation of Metals 92(5-6) (2019) 401-421.
J. Wang, J. Sun, Q. Jing, B. Liu, H. Zhang, Y. Yongsheng, J. Yuan, S. Dong, X. Zhou, X. Cao, Phase stability and thermo-physical properties of ZrO2-CeO2-TiO2 ceramics for thermal barrier coatings, Journal of the European Ceramic Society 38(7) (2018) 2841-2850.
N. Ejaz, L. Ali, A. Ahmad, M. Mansoor, M.M. Asim, A. Rauf, K. Mehmood, Thermo-Physical Properties Measurement of Advanced TBC Materials with Pyrochlore and Perovskite Structures, Key Engineering Materials, Trans Tech Publ, 2018, pp. 236-244.
A.A. Abubakar, A.F.M. Arif, S.S. Akhtar, Evolution of internal cracks and residual stress during deposition of TBC, Ceramics International (2020).
A. Ghoshal, M. Murugan, M.J. Walock, A. Nieto, L. Bravo, B. Barnett, M. Pepi, C. Hoffmeister Mock, J. Swab, S. Hirsch, Sandphobic coatings and surface modification of hot section components of next generation VTOL engines: current and future research efforts, 2018 Joint Propulsion Conference, 2018, p. 4831.
O.P. Golim, N. Prastomo, H. Izzudin, S. Hastuty, R. Sundawa, E. Sugiarti, K.A.Z. Thosin, Synthesis of alumina ceramic encapsulation for self-healing materials on thermal barrier coating, Journal of Physics: Conference Series 985 (2018) 012036.
L. Lim, S. Meguid, Modeling and characterisation of depletion of aluminium in bond coat and growth of mixed oxides in thermal barrier coatings, International Journal of Mechanics and Materials in Design (2019) 1-17.
A.H. Pakseresht, Production, Properties, and Applications of High Temperature Coatings, IGI Global2018.
J. Jiang, L. Jiang, Z. Cai, W. Wang, X. Zhao, Y. Liu, Z. Cao, Numerical stress analysis of the TBC-film cooling system under operating conditions considering the effects of thermal gradient and TGO growth, Surface and Coatings Technology 357 (2019) 433-444.
R. Takahashi, J. Assis, F.P. Neto, D. Reis, Heat treatment for TGO growth on NiCrAlY for TBC application, Materials Research Express 6(12) (2020) 126442.
X. Zhang, K. Zhou, M. Liu, C. Deng, C. Deng, J. Mao, Z. Deng, Mechanisms governing the thermal shock and tensile fracture of PS-PVD 7YSZ TBC, Ceramics International 44(4) (2018) 3973-3980.
J. Kulczyk-Malecka, X. Zhang, J. Carr, F. Nozahic, C. Estournes, D. Monceau, A.L. Carabat, W.G. Sloof, S. van der Zwaag, P.J. Withers, P. Xiao, Thermo – mechanical properties of SPS produced self-healing thermal barrier coatings containing pure and alloyed MoSi2 particles, Journal of the European Ceramic Society 38(12) (2018) 4268-4275.
J. Mitric, J. Krizan, J. Trajic, G. Krizan, M. Romcevic, N. Paunovic, B. Vasic, N. Romcevic, Structural properties of Eu3+ doped Gd2Zr2O7 nanopowders: Far-infrared spectroscopy, Optical Materials 75 (2018) 662-665.
G. Moskal, A. Jasik, M. Mikuskiewicz, S. Jucha, Thermal resistance determination of Sm2Zr2O7 + 8YSZ composite type of TBC, Applied Surface Science 515 (2020) 145998.
M. Gupta, N. Markocsan, X.-H. Li, R.L. Peng, Improving the lifetime of suspension plasma sprayed thermal barrier coatings, Surface and Coatings Technology 332 (2017) 550-559.
Y. Fukushima, M. Arai, K. Ito, T. Suidzu, Fusion and TBC Penetration Characteristics of Volcanic Ash Collected from Active Volcano, Journal of Thermal Spray Technology (2020) 1-15.
S. Budinovskii, D. Chubarov, P. Matveev, A. Smirnov, Deposition and Properties of the Ceramic TBC Layer Prepared by Magnetron Sputtering, Russian Metallurgy (Metally) 2019(12) (2019) 1280-1284.
X. Cao, R. Vassen, W. Fischer, F. Tietz, W. Jungen, D. Stöver, Lanthanum–Cerium Oxide as a Thermal Barrier-Coating Material for High-Temperature Applications, Advanced Materials 15(17) (2003) 1438-1442.
H. Zhang, J. Zeng, J. Yuan, P. Liang, X. Zhou, S. Chen, S. Duo, S. Dong, J. Jiang, L. Deng, Spray power-governed microstructure and composition, and their effects on properties of lanthanum-cerium-tantalum-oxide thermal barrier coating, Ceramics International (2020).
Y. Bai, W. Fan, K. Liu, Y. Kang, Y. Gao, F. Ma, Gradient La2Ce2O7/YSZ thermal barrier coatings tailored by synchronous dual powder feeding system, Materials Letters 219 (2018) 55-58.
R. Vaben, M.O. Jarligo, T. Steinke, D.E. Mack, D. Stover, Overview on advanced thermal barrier coatings, Surface and Coatings Technology 205(4) (2010) 938-942.
G. Moskal, Microstructure and thermal properties of Sm.
K.M. Doleker, Y. Ozgurluk, H. Ahlatci, A.C. Karaoglanli, Evaluation of oxidation and thermal cyclic behavior of YSZ, Gd2Zr2O7 and YSZ-Gd2Zr2O7 TBCs, Surface and Coatings Technology 371 (2019) 262-275.
R. Ianos, P. Barvinschi, Solution combustion synthesis of calcium zirconate, CaZrO3, powders, Journal of solid state chemistry 183(3) (2010) 491-496.
K. Neufuss, J. Dubsky, P. Rohan, B. Kolman, P. Chraska, L.-M. Berger, R. Zieris, S. Thiele, M. Nebelung, Structure and properties of CaZrO3 coatings prepared by WSP and APS spraying, ITSC 2003: International Thermal Spray Conference 2003: Advancing the Science and Applying the Technology, 2003, pp. 1541-1546.
M. Pollet, S. Marinel, G. Desgardin, CaZrO3, a Ni-co-sinterable dielectric material for base metal-multilayer ceramic capacitor applications, Journal of the European Ceramic Society 24(1) (2004) 119-127.
G. Di Girolamo, F. Marra, M. Schioppa, C. Blasi, G. Pulci, T. Valente, Evolution of microstructural and mechanical properties of lanthanum zirconate thermal barrier coatings at high temperature, Surface and Coatings Technology 268 (2015) 298-302.
L.A. Noveed Ejaz, Akhlaq Ahmad, Muhammad Mansoor, Muhammad Muneeb Asim, Abdul Rauf, Khalid Mehmood, Thermo-Physical Properties Measurement of Advanced TBC Materials with Pyrochlore and Perovskite Structures, 778 (2018).
Z. Yang, P. Zhang, W. Pan, Y. Han, M. Huang, H. Chen, Q. Gong, C. Wan, Thermal and oxygen transport properties of complex pyrochlore RE2InTaO7 for thermal barrier coating applications, Journal of the European Ceramic Society (2020).
H. Xu, H. Guo, Thermal barrier coatings, Elsevier2011.
H. Lau, Influence of yttria on the cyclic lifetime of YSZ TBC deposited on EB-PVD NiCoCrAlY bondcoats and its contribution to a modified TBC adhesion mechanism, Surface and Coatings Technology 235 (2013) 121-126.
S. Nouri, S. Sahmani, M. Asayesh, M. Aghdam, Improvement of high-temperature oxidation resistance of y-TiAl intermetallic alloy by YSZ-NiCoCrAlY coating using APS process, Materials Research Express 6(12) (2019) 126541.
J. Shi, T. Zhang, B. Sun, B. Wang, X. Zhang, L. Song, Isothermal oxidation and TGO growth behavior of NiCoCrAlY-YSZ thermal barrier coatings on a Ni-based superalloy, Journal of Alloys and Compounds 844 (2020) 156093.
M. Peters, C. Leyens, U. Schulz, W.A. Kaysser, EB-PVD thermal barrier coatings for aeroengines and gas turbines, Advanced engineering materials 3(4) (2001) 193-204.
L.B. Chen, Yttria-stabilized zirconia thermal barrier coatings-a review, Surface Review and Letters 13(05) (2006) 535-544.
B.R. Lawn, N.P. Padture, H. Cait, F. Guiberteau, Making ceramics” ductile”, Science 263(5150) (1994) 1114-1116.
A.H. Pakseresht, A.H. Javadi, M. Bahrami, F. Khodabakhshi, A. Simchi, Spark plasma sintering of a multilayer thermal barrier coating on Inconel 738 superalloy: Microstructural development and hot corrosion behavior, Ceramics International 42(2, Part A) (2016) 2770-2779.
F. Nozahic, C. Estournes, A.L. Carabat, W.G. Sloof, S. van der Zwaag, D. Monceau, Self-healing thermal barrier coating systems fabricated by spark plasma sintering, Materials & Design 143 (2018) 204-213.
S.-J. Park, M.-K. Seo, T.-J. Ma, D.-R. Lee, Effect of chemical treatment of Kevlar fibers on mechanical interfacial properties of composites, Journal of colloid and interface science 252(1) (2002) 249-255.
A.H. Pakseresht, A.H. Javadi, E. Ghasali, A. Shahbazkhan, S. Shakhesi, Evaluation of hot corrosion behavior of plasma sprayed thermal barrier coatings with graded intermediate layer and double ceramic top layer, Surface and Coatings Technology 288 (2016) 36-45.
N.P. Padture, M. Gell, E.H. Jordan, Thermal barrier coatings for gas-turbine engine applications, Science 296(5566) (2002) 280-284.
A. Aygun, A.L. Vasiliev, N.P. Padture, X. Ma, Novel thermal barrier coatings that are resistant to high-temperature attack by glassy deposits, Acta Materialia 55(20) (2007) 6734-6745.
B. Ercan, K.J. Bowman, R.W. Trice, H. Wang, W. Porter, Effect of initial powder morphology on thermal and mechanical properties of stand-alone plasma-sprayed 7 wt.% Y2O3–ZrO2 coatings, Materials Science and Engineering: A 435 (2006) 212-220.
L. Xie, D. Chen, E.H. Jordan, A. Ozturk, F. Wu, X. Ma, B.M. Cetegen, M. Gell, Formation of vertical cracks in solution-precursor plasma-sprayed thermal barrier coatings, Surface and Coatings Technology 201(3-4) (2006) 1058-1064.
G. Shanmugavelayutham, A. Kobayashi, Mechanical properties and oxidation behaviour of plasma sprayed functionally graded zirconia–alumina thermal barrier coatings, Materials chemistry and physics 103(2-3) (2007) 283-289.
B.-K. Jang, H. Matsubara, Influence of porosity on thermophysical properties of nano-porous zirconia coatings grown by electron beam-physical vapor deposition, Scripta materialia 54(9) (2006) 1655-1659.
R. Lima, B. Marple, Nanostructured YSZ thermal barrier coatings engineered to counteract sintering effects, Materials Science and Engineering: A 485(1-2) (2008) 182-193.
H. Chen, X. Zhou, C. Ding, Investigation of the thermomechanical properties of a plasma-sprayed nanostructured zirconia coating, Journal of the European Ceramic Society 23(9) (2003) 1449-1455.
T. Ouyang, J. Wu, M. Yasir, T. Zhou, X. Fang, Y. Wang, D. Liu, J. Suo, Effect of TiC self-healing coatings on the cyclic oxidation resistance and lifetime of thermal barrier coatings, Journal of Alloys and Compounds 656 (2016) 992-1003.
W.G. Sloof, Self healing in coatings at high temperatures, Self healing materials, Springer2007, pp. 309-321.
C. Wang, K. Li, X. Shi, J. Sun, Q. He, C. Huo, Self-healing YSZ-La-Mo-Si heterogeneous coating fabricated by plasma spraying to protect carbon/carbon composites from oxidation, Composites Part B: Engineering 125 (2017) 181-194.
S.T. Nguyen, T. Nakayama, M. Takeda, N.N. Hieu, T. Takahashi, Development of Yttrium Titanate/Nickel Nanocomposites with Self Crack-Healing Ability and Potential Application as Thermal Barrier Coating Material, MATERIALS TRANSACTIONS (2020) MT-MN2019006.
Z. Derelioglu, A.L. Carabat, G.M. Song, S.v.d. Zwaag, W.G. Sloof, On the use of B-alloyed MoSi2 particles as crack healing agents in yttria stabilized zirconia thermal barrier coatings, Journal of the European Ceramic Society 35(16) (2015) 4507-4511.
H.E. Eaton, G.D. Linsey, E.Y. Sun, K.L. More, J.B. Kimmel, J.R. Price, N. Miriyala, EBC protection of SiC/SiC composites in the gas turbine combustion environment: continuing evaluation and refurbishment considerations, Turbo Expo: Power for Land, Sea, and Air, American Society of Mechanical Engineers, 2001, p. V004T02A010.
S.C. Singhal, Advances in solid oxide fuel cell technology, Solid state ionics 135(1-4) (2000) 305-313.
M.J. Meijerink, Coating of MoSi2 healing particles for self-healing thermal barrier coatings, Chemical Engineering Materials Science and Engineering (2015).
R. Dutton, R. Wheeler, K. Ravichandran, K. An, Effect of heat treatment on the thermal conductivity of plasma-sprayed thermal barrier coatings, Journal of Thermal Spray Technology 9(2) (2000) 204-209.
S. Maria Jose, C.T. Mathew, J. K.Thomas, Fabrication of Dysprosium doped Y2O3 infrared transparent ceramic materials by a microwave sintering technique, Materials Today: Proceedings 24 (2020) 2383-2393.
M. Pavic-Colic, Multi-velocity and multi-temperature model of the mixture of polyatomic gases issuing from kinetic theory, Physics Letters A 383(24) (2019) 2829-2835.
N. Avci, I. Cimieri, P.F. Smet, D. Poelman, Stability improvement of moisture sensitive CaS: Eu2+ micro-particles by coating with sol–gel alumina, Optical Materials 33(7) (2011) 1032-1035.
J.J. Gibson, Y. Yi, S.J. Birks, Watershed, climate, and stable isotope data (oxygen-18 and deuterium) for 50 boreal lakes in the oil sands region, northeastern Alberta, Canada, 2002–2017, Data in Brief 29 (2020) 105308.
P. Benda, A. Kalendova, Anticorrosion Properties of Pigments based on Ferrite Coated Zinc Particles, Physics Procedia 44 (2013) 185-194.
S. Rabadzhiyska, L. Kolaklieva, V. Chitanov, T. Cholakova, R. Kakanakov, N. Dimcheva, K. Balashev, Mechanical, wear and corrosion behavior of CrN/TiN multilayer coatings deposited by low temperature unbalanced magnetron sputtering for biomedical applications, Materials Today: Proceedings 5(8, Part 2) (2018) 16012-16021.
L.W. Martin, Y.H. Chu, R. Ramesh, Advances in the growth and characterization of magnetic, ferroelectric, and multiferroic oxide thin films, Materials Science and Engineering: R: Reports 68(4) (2010) 89-133.
R. Mateos, G. Baeza, B. Sarria, L. Bravo, Improved LC-MSn characterization of hydroxycinnamic acid derivatives and flavonols in different commercial mate (Ilex paraguariensis) brands. Quantification of polyphenols, methylxanthines, and antioxidant activity, Food Chemistry 241 (2018) 232-241.
M. Tomczyk, A. Mahajan, A. Tkach, P.M. Vilarinho, Interface-based reduced coercivity and leakage currents of BiFeO3 thin films: A comparative study, Materials & Design 160 (2018) 1322-1334.
S. Bhattacharya, K. Mo, Z. Mei, D. Seidman, B. Stepnik, M.J. Pellin, A.M. Yacout, Improving stability of ALD ZrN thin film coatings over U-Mo dispersion fuel, Applied Surface Science (2020) 147378.
L. Chen, Yttria-stabilized zirconia thermal barrier coatings—a review, Surface Review and Letters 13(05) (2006) 535-544.
F. Yao, K. Ando, M.C. Chu, S. Sato, Static and cyclic fatigue behaviour of crack-healed Si3N4/SiC composite ceramics, Journal of the European Ceramic Society 21(7) (2001) 991-997.
K. Takahashi, M. Yokouchi, S.-K. Lee, K. Ando, Crack-Healing Behavior of Al2O3 Toughened by SiC Whiskers, Journal of the American Ceramic Society 86(12) (2003) 2143-2147.
M. Chu, S. Sato, Y. Kobayashi, K. Ando, Damage healing and strengthening behaviour in intelligent mullite/SiC ceramics, Fatigue & Fracture of Engineering Materials & Structures 18(9) (1995) 1019-1029.
W. Sloof, S. Turteltaub, A. Carabat, Z. Derelioglu, S. Ponnusami, G. Song, 219 Crack healing in yttria stabilized zirconia thermal barrier coatings, Self Healing Materials: Pioneering Research in the Netherlands (2015) 219.
M.E. Smith, Recent progress in solid-state NMR of low-y nuclei, Annual Reports on NMR Spectroscopy, Academic Press2001, pp. 121-175.
S.C. Singhal, Advances in solid oxide fuel cell technology, Solid State Ionics 135(1) (2000) 305-313.
X. Fan, W. Huang, X. Zhou, B. Zou, Preparation and characterization of NiAl–TiC–TiB2 intermetallic matrix composite coatings by atmospheric plasma spraying of SHS powders, Ceramics International (2020).
A.H. Heuer, Oxygen and aluminum diffusion in a-Al2O3: How much do we really understand, Journal of the European Ceramic Society 28(7) (2008) 1495-1507.
Y. Oishi, W.D. Kingery, Self-Diffusion of Oxygen in Single Crystal and Polycrystalline Aluminum Oxide, The Journal of Chemical Physics 33(2) (1960) 480-486.
M. MUNRO, Evaluated material properties for a sintered alpha-alumina, Journal of the American Ceramic Society 80(8) (1997) 1919-1928.
S. Xie, C. Song, Z. Yu, S. Liu, F. Lapostolle, D. Klein, C. Deng, M. Liu, H. Liao, Effect of environmental pressure on the microstructure of YSZ thermal barrier coating via suspension plasma spraying, Journal of the European Ceramic Society (2020).
Y. Heng, N. Feng, Y. Liang, D. Hu, Lignin-retaining porous bamboo-based reversible thermochromic phase change energy storage composite material, International Journal of Energy Research 44(7) (2020) 5441-5454.
B. Mazeres, C. Desgranges, C. Toffolon-Masclet, D. Monceau, Experimental study and numerical simulation of high temperature (1100–1250°C) oxidation of prior-oxidized zirconium alloy, Corrosion Science 103 (2016) 10-19.
D. Seo, M. Sayar, K. Ogawa, SiO2 and MoSi2 formation on Inconel 625 surface via SiC coating deposited by cold spray, Surface and Coatings Technology 206(11-12) (2012) 2851-2858.
Y. Xu, X. Liu, L. Gu, J. Wang, P. Schützendübe, Y. Huang, Y. Liu, Z. Wang, Natural oxidation of amorphous CuxZr1-x alloys, Applied Surface Science 457 (2018) 396-402.
K.R. Lim, W.T. Kim, E.-S. Lee, S.S. Jee, S.Y. Kim, D.H. Kim, A. Gebert, J. Eckert, Oxidation resistance of the supercooled liquid in Cu50Zr50 and Cu46Zr46Al8 metallic glasses, Journal of Materials Research 27(8) (2012) 1178.
B. Wang, D. Huang, N. Prud’Homme, Z. Chen, F. Jomard, T. Zhang, V. Ji, Diffusion mechanism of Zr-based metallic glass during oxidation under dry air, Intermetallics 28 (2012) 102-107.
H. Over, A. Seitsonen, Oxidation of metal surfaces, Science 297(5589) (2002) 2003-2005.
S. Aygün, S. Klinge, Continuum mechanical modeling of strain-induced crystallization in polymers, International Journal of Solids and Structures 196-197 (2020) 129-139.
Y. Wang, D. Su, H. Ji, X. Li, Z. Zhao, H. Tang, Gradient structure high emissivity MoSi2-SiO2-SiOC coating for thermal protective application, Journal of Alloys and Compounds 703 (2017) 437-447.
X. Jing, H.-Y. Mi, X.-F. Peng, L.-S. Turng, Biocompatible, self-healing, highly stretchable polyacrylic acid/reduced graphene oxide nanocomposite hydrogel sensors via mussel-inspired chemistry, Carbon 136 (2018) 63-72.
T. Ouyang, S. Xiong, Y. Zhang, D. Liu, X. Fang, Y. Wang, S. Feng, T. Zhou, J. Suo, Cyclic oxidation behavior of SiC-containing self-healing TBC systems fabricated by APS, Journal of Alloys and Compounds 691 (2017) 811-821.
T.N. Son Thanh Nguyen, Masatoshi Takeda, Nguyen Ngoc Hieu, Tsuyoshi Takahashi, Development of Yttrium Titanate/Nickel Nanocomposites with Self Crack-Healing Ability and Potential Application as Thermal Barrier Coating Material, (2020).
I.I. Kurniadi Isnu, On the in situ encapsulation of MoSi2B healing particles in YSZ TBCs: Self-healing of thermal barrier coatings (TBCs), (2016).
V. Carnicer Cervera, E. Canas-Recacha, M.J. Orts Tari, R. Moreno, M.D. Salvador Moya, P. Carpio Cobo, L. Navarro, E. Sanchez-Vilches, Characterization of thermal barriers coatings of Y-TZP/Al2O3/SiC composite obtained by suspension plasma spraying, (2017).
B. Xiao, X. Huang, T. Robertson, Z. Tang, R. Kearsey, Sintering resistance of suspension plasma sprayed 7YSZ TBC under isothermal and cyclic oxidation, Journal of the European Ceramic Society 40(5) (2020) 2030-2041.
F. Nozahic, A.L. Carabat, W. Mao, D. Monceau, C. Estournes, C. Kwakernaak, S. Van Der Zwaag, W.G. Sloof, Kinetics of zircon formation in yttria partially stabilized zirconia as a result of oxidation of embedded molybdenum disilicide, Acta Materialia 174 (2019) 206-216.
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