Progress in ceramic materials and structure design toward advanced thermal barrier coatings
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Liang Wang | Z. Ma | W. Pan | Lin Chen | C. Wan | Guanjun Yang | Zhi-Yuan Wei | H. Cai | Wei-wei Zhang | K. Zhou | Ling Liu | Hui Dong | Qiang Zhang | Guangrong Li | C. Li | Xiaofeng Zhang | Lei Guo | Z. Qu | Z. Bao | Pengju Xu | Jing Feng | Min Liu | G. Meng | Bo Cheng | Lin Chen | Li-Na Zhao | Mei-Jun Liu | Wei-xu Zhang | Xiao-dong Zhang | Xiaodong Zhao | Hong Cui | You Wang | Fuyuan Ye | B. Cheng | Zhuang Ma | F. Ye | Guang-Rong Li | Wei-Wei Zhang | Guang‐Rong Li | Xiao-Feng Zhao
[1] Hui-di Zhou,et al. High-entropy (La0.2Nd0.2Sm0.2Eu0.2Gd0.2)2Ce2O7: A potential thermal barrier material with improved thermo-physical properties , 2022, Journal of Advanced Ceramics.
[2] Xiaofeng Zhao,et al. Influence of pore characteristics of air plasma sprayed thermal barrier coatings on calcia-magnesia-alumino-silicate (CMAS) attack behavior , 2021 .
[3] J. Nicholls,et al. Modelling evaporation in electron-beam physical vapour deposition of thermal barrier coatings , 2021, Emergent Materials.
[4] J. Watts,et al. The Effect of Cracking of Thermally Grown Oxide Layers in Thermal Barrier Coatings Examined Using FIB Tomography and Inverse Modelling , 2021, Oxidation of Metals.
[5] F. Gao,et al. Enhanced mechanical and thermal properties of ferroelastic high-entropy rare-earth-niobates , 2021, Scripta Materialia.
[6] W. Pan,et al. Y 3 NbO 7 transparent ceramic series for high refractive index optical lenses , 2021 .
[7] A. C. Karaoglanli,et al. TGO growth and kinetic study of single and double layered TBC systems , 2021 .
[8] Lunyan Wang,et al. Composition optimization, high-temperature stability, and thermal cycling performance of Sc-doped Gd2Zr2O7 thermal barrier coatings: Theoretical and experimental studies , 2021, Journal of Advanced Ceramics.
[9] F. Ye,et al. CMAS Corrosion Behavior and Protection Method of Thermal Barrier Coatings for Aeroengine , 2021 .
[10] Yi Zeng,et al. Investigation of microstructure changes in Al2O3-YSZ coatings and YSZ coatings and their effect on thermal cycle life , 2021, Journal of Advanced Ceramics.
[11] Zhi-Yuan Wei,et al. The effects of TGO growth stress and creep rate on TC/TGO interface cracking in APS thermal barrier coatings , 2021 .
[12] Guanjun Yang,et al. Pressure infiltration of molten aluminum for densification of environmental barrier coatings , 2021, Journal of Advanced Ceramics.
[13] Yanchun Zhou,et al. High-entropy ceramics: Present status, challenges, and a look forward , 2021, Journal of Advanced Ceramics.
[14] Yongle Sun,et al. Local residual stress evolution of highly irregular thermally grown oxide layer in thermal barrier coatings , 2021 .
[15] L. Liu,et al. Submodeling method to study the residual stress of TBCs near the interfacial asperity on a vane , 2021 .
[16] H. Sarpoolaky,et al. Oxidation Resistance of Double-Ceramic-Layered Thermal Barrier Coating System with an Intermediate Al2O3-YAG Layer , 2021, Journal of Thermal Spray Technology.
[17] R. Swadźba,et al. Lifetime improvement of EB-PVD 7YSZ TBCs by doping of Hf or Zr in NiCoCrAlY bond coats , 2021 .
[18] Guanjun Yang,et al. Condensation behavior of gaseous phase during transported in the near-substrate boundary layer of plasma spray-physical vapor deposition , 2021 .
[19] Yupeng Cao,et al. Thermal shock behavior of Ba(Mg1/3Ta2/3)O3-YSZ double-ceramic-layer thermal barrier coatings prepared by atmospheric plasma spraying , 2021 .
[20] M. Roy,et al. Elevated Temperature Erosion of Plasma Sprayed Thermal Barrier Coating , 2021, Journal of Thermal Spray Technology.
[21] Ling Liu,et al. Reaction products of Sm2Zr2O7 with calcium-magnesium-aluminum-silicate (CMAS) and their evolution , 2021, Journal of Advanced Ceramics.
[22] Limin He,et al. Thermal shock life and failure behaviors of La2Zr2O7/YSZ, La2Ce2O7/YSZ and Gd2Zr2O7/YSZ DCL TBCs by EB-PVD , 2021 .
[23] Yanchun Zhou,et al. Preparation and properties of CMAS resistant bixbyite structured high-entropy oxides RE2O3 (RE = Sm, Eu, Er, Lu, Y, and Yb): Promising environmental barrier coating materials for Al2O3f/Al2O3 composites , 2021, Journal of Advanced Ceramics.
[24] Fu-hui Wang,et al. Nanocrystalline coatings on superalloys against high temperature oxidation: A review , 2021, Corrosion Communications.
[25] Lei Guo,et al. Effects of surface roughness on CMAS corrosion behavior for thermal barrier coating applications , 2021, Journal of Advanced Ceramics.
[26] David L. Poerschke,et al. Dissolution and diffusion kinetics of yttria-stabilized zirconia into molten silicates , 2021 .
[27] Guanjun Yang,et al. Dynamic-stiffening-induced aggravated cracking behavior driven by metal-substrate-constraint in a coating/substrate system , 2021 .
[28] W. Pan,et al. Thermal conductivity modeling on highly disordered crystalline Y1−xNbxO1.5+x: Beyond the phonon scenario , 2021 .
[29] Pengfei Liu,et al. Numerical Analysis of stress evolution in thermal barrier coating system during two-stage growth of heterogeneous oxide , 2021 .
[30] Jiaqi Shi,et al. Isothermal oxidation and TGO growth behavior of NiCoCrAlY-YSZ thermal barrier coatings on a Ni-based superalloy , 2020 .
[31] Yang Yu,et al. Self-crystallization characteristics of calcium-magnesium-alumina- silicate (CMAS) glass under simulated conditions for thermal barrier coating applications , 2020 .
[32] Xijia Wu,et al. Failure Mechanisms of APS-YSZ-CoNiCrAlY Thermal Barrier Coating Under Isothermal Oxidation and Solid Particle Erosion , 2020, Journal of Thermal Spray Technology.
[33] Dongxu Li,et al. Experimental and numerical investigation on the thermal and mechanical behaviours of thermal barrier coatings exposed to CMAS corrosion , 2020, Journal of Advanced Ceramics.
[34] O. Aslan,et al. Modeling and simulation of coupled phase transformation and stress evolution in thermal barrier coatings , 2020 .
[35] Feng Xie,et al. Long-Term Failure Mechanisms of Thermal Barrier Coatings in Heavy-Duty Gas Turbines , 2020 .
[36] L. Wang,et al. Influence of internal oxidation of the bond-coat on the residual stress around the TGO and failure modes of the APS-TBCs: A finite element simulation study , 2020 .
[37] G. Bolelli,et al. CMAS corrosion of YSZ thermal barrier coatings obtained by different thermal spray processes , 2020 .
[38] Junshi Guo,et al. Mechanical and thermal properties of RETaO4 (RE = Yb, Lu, Sc) ceramics with monoclinic-prime phase , 2020 .
[39] Lei Guo,et al. Comparison of NaVO3+CMAS mixture and CMAS corrosion to thermal barrier coatings , 2020 .
[40] Chang-jiu Li,et al. Superior oxidation resistant MCrAlY bond coats prepared by controlled atmosphere heat treatment , 2020 .
[41] Ling Liu,et al. Preparation and heat insulating capacity of Sm2Zr2O7-SiC composites based on photon thermal transport , 2020, Journal of Advanced Ceramics.
[42] W. Xu,et al. High entropy (Y0.2Yb0.2Lu0.2Eu0.2Er0.2)3Al5O12: A novel high temperature stable thermal barrier material , 2020 .
[43] H. Myalska,et al. Oxidation Behavior of the Monolayered La2Zr2O7, Composite La2Zr2O7 + 8YSZ, and Double-Ceramic Layered La2Zr2O7/La2Zr2O7 + 8YSZ/8YSZ Thermal Barrier Coatings , 2020, Materials.
[44] D. Dingwell,et al. Dynamic spreading of re-melted volcanic ash bead on thermal barrier coatings , 2020 .
[45] Xiao Feng Zhang,et al. Effect of powder composition upon plasma spray-physical vapor deposition of 8YSZ columnar coating , 2020 .
[46] W. Weng,et al. Cracking evolution of atmospheric plasma-sprayed YSZ thermal barrier coatings subjected to isothermal heat treatment , 2020 .
[47] W. Xu,et al. High-entropy (Y0.2Nd0.2Sm0.2Eu0.2Er0.2)AlO3: A promising thermal/environmental barrier material for oxide/oxide composites , 2020 .
[48] W. Xu,et al. High entropy defective fluorite structured rare-earth niobates and tantalates for thermal barrier applications , 2020, Journal of Advanced Ceramics.
[49] Yu Bai,et al. Preparation and characterization of SrZrO3–La2Ce2O7 composite ceramics as a thermal barrier coating material , 2020, Materials Chemistry and Physics.
[50] F. Ye,et al. Preparation of (Gd0.9Sc0.1)2Zr2O7/YSZ thermal barrier coatings and their corrosion resistance to V2O5 molten salt , 2020 .
[51] H. Liu,et al. Preparation and oxidation performance of a low-diffusion Pt-modified aluminide coating with Re-base diffusion barrier , 2020 .
[52] Y. Zhou,et al. Real-time Detection of CMAS Corrosion Failure in APS Thermal Barrier Coatings Under Thermal Shock , 2020 .
[53] J. Nicholls,et al. Thermal insulation of CMAS (Calcium-Magnesium-Alumino-Silicates)- attacked plasma-sprayed thermal barrier coatings , 2020, Journal of the European Ceramic Society.
[54] C. Ramana,et al. Effects of yttria content on the CMAS infiltration resistance of yttria stabilized thermal barrier coatings system , 2020 .
[55] Q. Gong,et al. Thermal and mechanical properties of ferroelastic RENbO4 (RE = Nd, Sm, Gd, Dy, Er, Yb) for thermal barrier coatings , 2020 .
[56] R. S. Mulik,et al. Thermal Barrier Coatings—A State of the Art Review , 2020, Metals and Materials International.
[57] Zhi-Yuan Wei,et al. Low-thermal-conductivity thermal barrier coatings with a multi-scale pore design and sintering resistance following thermal exposure , 2020, Rare Metals.
[58] Guanjun Yang,et al. Dominant effects of 2D pores on mechanical behaviors of plasma sprayed ceramic coatings during thermal exposure , 2020 .
[59] W. Pan,et al. Mechanical properties, oxygen barrier property, and chemical stability of RE 3 NbO 7 for thermal barrier coating , 2020 .
[60] Yunxuan Zhou,et al. The thermo‐mechanical properties and ferroelastic phase transition of RENbO 4 (RE = Y, La, Nd, Sm, Gd, Dy, Yb) ceramics , 2020 .
[61] W. Xu,et al. (Y0.25Yb0.25Er0.25Lu0.25)2(Zr0.5Hf0.5)2O7: A defective fluorite structured high entropy ceramic with low thermal conductivity and close thermal expansion coefficient to Al2O3 , 2020 .
[62] Xinmu Zhang,et al. Microstructure modification of Y2O3 stabilized ZrO2 thermal barrier coatings by laser glazing and the effects on the hot corrosion resistance , 2020, Journal of Advanced Ceramics.
[63] J. Chevalier,et al. Forty years after the promise of «ceramic steel?»: Zirconia‐based composites with a metal‐like mechanical behavior , 2020 .
[64] Chang-jiu Li,et al. Plasma spray–physical vapor deposition toward advanced thermal barrier coatings: a review , 2020, Rare Metals.
[65] Xiao Huang,et al. Fracture performance and crack growth prediction of SPS TBCs in isothermal experiments by crack numbering density , 2020 .
[66] Xiaohui Wang,et al. Versatility of potential protective layer material Ti2AlC on resisting CMAS corrosion to thermal barrier coatings , 2020 .
[67] Guanjun Yang,et al. Improving WC-Co coating adhesive strength on rough substrate: Finite element modeling and experiment , 2020 .
[68] Guanjun Yang,et al. Gradient stiffening induced interfacial cracking and strain tolerant design in thermal barrier coatings , 2020 .
[69] O. Guillon,et al. Performance of YSZ and Gd2Zr2O7/YSZ double layer thermal barrier coatings in burner rig tests , 2020, Journal of the European Ceramic Society.
[70] Zhao Xue,et al. Influence of Y2O3 and Ta2O5 Co-doping on Microstructure and Thermal Conductivity of Gd2Zr2O7 Ceramics , 2020, Journal of Materials Engineering and Performance.
[71] Tong Xu,et al. Large-grain α-Al2O3 enabling ultra-high oxidation-resistant MCrAlY bond coats by surface pre-agglomeration treatment , 2020 .
[72] P. Xiao,et al. Pore filling behavior of air plasma spray thermal barrier coatings under CMAS attack , 2020 .
[73] P. Geffroy,et al. Experimental Study of the Impact of Substrate Shape and Tilting on Particle Velocity in Suspension Plasma Spraying , 2020, Journal of Thermal Spray Technology.
[74] M. Kishore,et al. Quantitative Evaluation of Partial Delamination in Thermal Barrier Coatings Using Ultrasonic C-scan Imaging , 2020 .
[75] Jing Feng,et al. Influence of HfO2 alloying effect on microstructure and thermal conductivity of HoTaO4 ceramics , 2019, Journal of Advanced Ceramics.
[76] H. Ahmadian,et al. Investigation of thermal shock resistant in three kinds thermal barrier cerium oxide coating (CeO2) with MCrAlY intermediate layer , 2019, SN Applied Sciences.
[77] S. Turteltaub,et al. Numerical Investigation into the Effect of Splats and Pores on the Thermal Fracture of Air Plasma-Sprayed Thermal Barrier Coatings , 2019, Journal of Thermal Spray Technology.
[78] D. Shifler. The Increasing Complexity of Corrosion in Gas Turbines , 2019, Volume 1: Aircraft Engine; Fans and Blowers; Marine; Honors and Awards.
[79] Zhi Zhang,et al. Preparing hollow spherical hydroxyapatite powder with a thin shell structure by the plasma process with a heat preservation zone , 2019, Ceramics International.
[80] Zhi-Yuan Wei,et al. Extend the thermal cyclic lifetime of La2Zr2O7/YSZ DCL TBCs by reducing modulus design on a toughening ceramic surface , 2019, Surface and Coatings Technology.
[81] Guanjun Yang,et al. Transport and deposition behaviors of vapor coating materials in plasma spray-physical vapor deposition , 2019, Applied Surface Science.
[82] Wenxian Li,et al. Recent progress in thermal/environmental barrier coatings and their corrosion resistance , 2019, Rare Metals.
[83] H. Ahlatci,et al. Evaluation of oxidation and thermal cyclic behavior of YSZ, Gd2Zr2O7 and YSZ/Gd2Zr2O7 TBCs , 2019, Surface and Coatings Technology.
[84] Yang Yu,et al. Effects of laser glazing on CMAS corrosion behavior of Y2O3 stabilized ZrO2 thermal barrier coatings , 2019, Corrosion Science.
[85] Yingzheng Liu,et al. CMAS penetration-induced cracking behavior in the ceramic top coat of APS TBCs , 2019, Ceramics International.
[86] Zhihui Zhang,et al. Hot Corrosion Behavior of YSZ Thermal Barrier Coatings Modified by Laser Remelting and Al Deposition , 2019, Journal of Thermal Spray Technology.
[87] Jing Feng,et al. Thermal expansion performance and intrinsic lattice thermal conductivity of ferroelastic RETaO 4 ceramics , 2019, Journal of the American Ceramic Society.
[88] Guo‐Jun Zhang,et al. High-entropy pyrochlores with low thermal conductivity for thermal barrier coating materials , 2019, Journal of Advanced Ceramics.
[89] Yang Yu,et al. CMAS resistance characteristics of LaPO4/YSZ thermal barrier coatings at 1250°C–1350°C , 2019, Corrosion Science.
[90] Tong Xu,et al. Highly oxidation resistant MCrAlY bond coats prepared by heat treatment under low oxygen content , 2019, Surface and Coatings Technology.
[91] Limin He,et al. LZC/YSZ double layer coatings: EB-PVD, microstructure and thermal cycling life , 2019, Surface and Coatings Technology.
[92] Yu Bai,et al. Modelling of catastrophic stress development due to mixed oxide growth in thermal barrier coatings , 2019, Ceramics International.
[93] Zhi-Yuan Wei,et al. The Combined Effect of Creep and TGO Growth on the Cracking Driving Force in a Plasma-Sprayed Thermal Barrier System , 2019, Journal of Thermal Spray Technology.
[94] Chang-jiu Li,et al. Combined effect of internal and external factors on sintering kinetics of plasma-sprayed thermal barrier coatings , 2019, Journal of the European Ceramic Society.
[95] W. Pan,et al. Diffused Lattice Vibration and Ultralow Thermal Conductivity in the Binary Ln–Nb–O Oxide System , 2019, Advanced materials.
[96] Min Liu,et al. Structural evolution of Al-modified PS-PVD 7YSZ TBCs in thermal cycling , 2019, Ceramics International.
[97] Xiaohui Wang,et al. Ti2AlC MAX phase for resistance against CMAS attack to thermal barrier coatings , 2019, Ceramics International.
[98] Jianxing Yu,et al. Corrosion products evolution and hot corrosion mechanisms of REPO4 (RE= Gd, Nd, La) in the presence of V2O5 + Na2SO4 molten salt , 2019, Journal of the European Ceramic Society.
[99] Guanjun Yang,et al. Thermodynamic conditions for cluster formation in supersaturated boundary layer during plasma spray-physical vapor deposition , 2019, Applied Surface Science.
[100] Shaolin Li,et al. Effect of bond-coat surface roughness on failure mechanism and lifetime of air plasma spraying thermal barrier coatings , 2019, Science China Technological Sciences.
[101] Wei Chen,et al. Corrosion behavior and elements interdiffusion between a Ni coating and GH3535 alloy with and without a CrN barrier in molten fluoride salts , 2019, Journal of Nuclear Materials.
[102] Guanjun Yang,et al. Understanding of degradation-resistant behavior of nanostructured thermal barrier coatings with bimodal structure , 2019, Journal of Materials Science & Technology.
[103] Chang-jiu Li,et al. Prolong the durability of La2Zr2O7/YSZ TBCs by decreasing the cracking driving force in ceramic coatings , 2018, Journal of the European Ceramic Society.
[104] Jing Feng,et al. Investigation on microstructures and thermo-physical properties of ferroelastic (Y1-xDyx)TaO4 ceramics , 2018, Materialia.
[105] Z. Ma,et al. Influence of Feedstock on the Microstructure of Sm2Zr2O7 Thermal Barrier Coatings Deposited by Plasma Spraying , 2018, Journal of Thermal Spray Technology.
[106] Baopeng Zhang,et al. Microstructural evolution, mechanical properties and degradation mechanism of PS-PVD quasi-columnar thermal barrier coatings exposed to glassy CMAS deposits , 2018, Rare Metals.
[107] Guanjun Yang,et al. Self-Enhancing Thermal Insulation Performance of Bimodal-Structured Thermal Barrier Coating , 2018, Journal of Thermal Spray Technology.
[108] Min Liu,et al. CMAS corrosion and thermal cycle of Al-modified PS-PVD environmental barrier coating , 2018, Ceramics International.
[109] Jianxing Yu,et al. GdPO4 as a novel candidate for thermal barrier coating applications at elevated temperatures , 2018, Surface and Coatings Technology.
[110] Tong Xu,et al. Highly oxidation resistant and cost effective MCrAlY bond coats prepared by controlled atmosphere heat treatment , 2018, Surface and Coatings Technology.
[111] Chang-jiu Li,et al. Stage-sensitive microstructural evolution of nanostructured TBCs during thermal exposure , 2018, Journal of the European Ceramic Society.
[112] Waldo A. Acosta,et al. Reactivity between rare‐earth oxides based thermal barrier coatings and a silicate melt , 2018 .
[113] H. Cui,et al. Preparation of Yttria-Stabilized Zirconia Hollow Sphere with Reduced Shell Thickness by Controlling Ambient Temperature during Plasma Process , 2018, Coatings.
[114] V. P. Red'ko,et al. Thermal Barrier Coatings: Current Status, Search, and Analysis , 2018, Powder Metallurgy and Metal Ceramics.
[115] S. R. Choi,et al. CMAS Effects on Ship Gas-Turbine Components/Materials , 2018, Volume 1: Aircraft Engine; Fans and Blowers; Marine.
[116] Jing Feng,et al. Potential thermal barrier coating materials: RE 3 NbO 7 ( RE =La, Nd, Sm, Eu, Gd, Dy) ceramics , 2018, Journal of the American Ceramic Society.
[117] P. Xiao,et al. Pore filling behavior of YSZ under CMAS attack: Implications for designing corrosion‐resistant thermal barrier coatings , 2018, Journal of the American Ceramic Society.
[118] Z. Valefi,et al. The effect of the Re-Ni diffusion barrier on the adhesion strength and thermal shock resistance of the NiCoCrAlY coating , 2018, Surface and Coatings Technology.
[119] Dianying Chen,et al. Segmented Thermal Barrier Coatings for ID and OD Components Using the SinplexPro Plasma Torch , 2018, Journal of Thermal Spray Technology.
[120] Guanjun Yang,et al. Hetero-Orientation Epitaxial Growth of TiO2 Splats on Polycrystalline TiO2 Substrate , 2018, Journal of Thermal Spray Technology.
[121] D. Shifler. Hot corrosion: a modification of reactants causing degradation , 2018 .
[122] Guanjun Yang,et al. Epitaxial growth and cracking of highly tough 7YSZ splats by thermal spray technology , 2018, Journal of Advanced Ceramics.
[123] Xiao Li,et al. The sintering behavior of plasma-sprayed YSZ coating over the delamination crack in low temperature environment , 2018 .
[124] D. A. Hopkins,et al. Molten Particulate Impact on Tailored Thermal Barrier Coatings for Gas Turbine Engine , 2018 .
[125] Guanjun Yang,et al. Epitaxial Growth and Cracking Mechanisms of Thermally Sprayed Ceramic Splats , 2018, Journal of Thermal Spray Technology.
[126] Guanjun Yang,et al. Imaging Slit Pores Under Delaminated Splats by White Light Interference , 2018, Journal of Thermal Spray Technology.
[127] Chang-jiu Li,et al. Gaseous material capacity of open plasma jet in plasma spray-physical vapor deposition process , 2018 .
[128] U. Klement,et al. The Influence of Heat Treatments on the Porosity of Suspension Plasma-Sprayed Yttria-Stabilized Zirconia Coatings , 2018, Journal of Thermal Spray Technology.
[129] Guanjun Yang,et al. Bimodal TBCs with low thermal conductivity deposited by a powder-suspension co-spray process , 2017, Journal of Materials Science & Technology.
[130] Chang-jiu Li,et al. Sintering induced the failure behavior of dense vertically crack and lamellar structured TBCs with equivalent thermal insulation performance , 2017 .
[131] Chang-jiu Li,et al. Gradient thermal cyclic behaviour of La2Zr2O7/YSZ DCL-TBCs with equivalent thermal insulation performance , 2017 .
[132] Y. Zhou,et al. Models for predicting TGO growth to rough interface in TBCs , 2017 .
[133] P. Xiao,et al. A prominent driving force for the spallation of thermal barrier coatings: Chemistry dependent phase transformation of the bond coat , 2017 .
[134] R. Vaßen,et al. Lifetime and failure modes of plasma sprayed thermal barrier coatings in thermal gradient rig tests with simultaneous CMAS injection , 2017 .
[135] Fu-hui Wang,et al. Diffusion of Ta and its influence on oxidation behavior of nanocrystalline coatings with different Ta, Y and Al contents , 2017 .
[136] Chang-jiu Li,et al. A comprehensive sintering mechanism for TBCs‐Part II: Multiscale multipoint interconnection‐enhanced initial kinetics , 2017 .
[137] Guanjun Yang,et al. Strain-induced stiffness-dependent structural changes and the associated failure mechanism in TBCs , 2017 .
[138] A. C. Karaoglanli,et al. Hot corrosion behavior of YSZ, Gd 2 Zr 2 O 7 and YSZ/Gd 2 Zr 2 O 7 thermal barrier coatings exposed to molten sulfate and vanadate salt , 2017 .
[139] Zhuo Wang,et al. Characterization of the strain in the thermal barrier coatings caused by molten CaO-MgO-Al2O3-SiO2 using a digital image correlation technique , 2017 .
[140] K. Biswas,et al. Hot corrosion behaviour of rare-earth magnesium hexaaluminate based thermal barrier coatings under molten sulphate-vanadate salts , 2017 .
[141] Chang-jiu Li,et al. Evaporation of Droplets in Plasma Spray–Physical Vapor Deposition Based on Energy Compensation Between Self-Cooling and Plasma Heat Transfer , 2017, Journal of Thermal Spray Technology.
[142] O. Guillon,et al. Development of YSZ Thermal Barrier Coatings Using Axial Suspension Plasma Spraying , 2017 .
[143] Guanjun Yang,et al. Anomalous Epitaxial Growth in Thermally Sprayed YSZ and LZ Splats , 2017, Journal of Thermal Spray Technology.
[144] R. Vaßen,et al. Ceramic Top Coats of Plasma-Sprayed Thermal Barrier Coatings: Materials, Processes, and Properties , 2017, Journal of Thermal Spray Technology.
[145] M. Bäker,et al. A Guide to Finite Element Simulations of Thermal Barrier Coatings , 2017, Journal of Thermal Spray Technology.
[146] Hu Zhang,et al. Improved mechanical properties of Ni-rich Ni3Al coatings produced by EB-PVD for repairing single crystal blades , 2017, Rare Metals.
[147] Guanjun Yang,et al. Multiscale Pores in TBCs for Lower Thermal Conductivity , 2017, Journal of Thermal Spray Technology.
[148] R. Brooker,et al. An experimental simulation of volcanic ash deposition in gas turbines and implications for jet engine safety , 2017 .
[149] B. Remy,et al. Effect of Suspension Plasma-Sprayed YSZ Columnar Microstructure and Bond Coat Surface Preparation on Thermal Barrier Coating Properties , 2017, Journal of Thermal Spray Technology.
[150] Fu-hui Wang,et al. A magnetron sputtered microcrystalline β-NiAl coating for SC superalloys. Part II. Effects of a NiCrO diffusion barrier on oxidation behavior at 1100 °C , 2017 .
[151] M. Arai. Mechanistic Study on the Degradation of Thermal Barrier Coatings Induced by Volcanic Ash Deposition , 2017, Journal of Thermal Spray Technology.
[152] Guanjun Yang,et al. Non-Parabolic Isothermal Oxidation Kinetics of Low Pressure Plasma Sprayed MCrAlY Bond Coat , 2017, International Thermal Spray Conference.
[153] Chang-jiu Li,et al. A comprehensive sintering mechanism for TBCs‐Part I: An overall evolution with two‐stage kinetics , 2017 .
[154] Li Fei,et al. Grain Growth Characteristics of Hydrothermally Prepared Yttria Stabilized Zirconia Nanocrystals during Calcination , 2017 .
[155] Yong-jing Wang,et al. Defects/CMAS corrosion resistance relationship in plasma sprayed YPSZ coating , 2017 .
[156] Guanjun Yang,et al. Formation of Lamellar Pores for Splats via Interfacial or Sub-interfacial Delamination at Chemically Bonded Region , 2017, Journal of Thermal Spray Technology.
[157] Tie-jun Wang,et al. Effect of neck formation on the sintering of air-plasma-sprayed thermal barrier coating system , 2017 .
[158] Cheng-Long Zhang,et al. Hot corrosion evaluation of Gd2O3-Yb2O3 co-doped Y2O3 stabilized ZrO2 thermal barrier oxides exposed to Na2SO4+V2O5 molten salt , 2017 .
[159] Chang-jiu Li,et al. Edge Effect on Crack Patterns in Thermally Sprayed Ceramic Splats , 2017, Journal of Thermal Spray Technology.
[160] Baopeng Zhang,et al. Plasma–Powder Feedstock Interaction During Plasma Spray–Physical Vapor Deposition , 2017, Journal of Thermal Spray Technology.
[161] H. Ahlatci,et al. Investigation of Isothermal Oxidation Behavior of Thermal Barrier Coatings (TBCs) Consisting of YSZ and Multilayered YSZ/Gd2Zr2O7 Ceramic Layers , 2017, Oxidation of Metals.
[162] Cheul‐Ro Lee,et al. Efficiency enhancement of CIGS compound solar cell fabricated using homomorphic thin Cr 2 O 3 diffusion barrier formed on stainless steel substrate , 2016 .
[163] Yange Yang,et al. Preparation and enhanced oxidation performance of a Hf-doped single-phase Pt-modified aluminide coating , 2016 .
[164] Chang-jiu Li,et al. Properties evolution of plasma-sprayed La2Zr2O7 coating induced by pore structure evolution during thermal exposure , 2016 .
[165] F. Ye,et al. Comparison of hot corrosion resistance of Sm2Zr2O7 and (Sm0.5Sc0.5)2Zr2O7 ceramics in Na2SO4+V2O5 molten salt , 2016 .
[166] Yueming Li,et al. Study on Stress Development in the Phase Transition Layer of Thermal Barrier Coatings , 2016, Materials.
[167] Yu Zhou,et al. Microstructure and thermal properties of a promising thermal barrier coating: YTaO4 , 2016 .
[168] Chang-jiu Li,et al. Hierarchical Formation of Intrasplat Cracks in Thermal Spray Ceramic Coatings , 2016, Journal of Thermal Spray Technology.
[169] Chang-jiu Li,et al. The Correlation of the TBC Lifetimes in Burner Cycling Test with Thermal Gradient and Furnace Isothermal Cycling Test by TGO Effects , 2016, Journal of Thermal Spray Technology.
[170] R. Razavi,et al. Comparison of hot corrosion behavior of nanostructured ScYSZ and YSZ thermal barrier coatings , 2016 .
[171] Yange Yang,et al. Effect of aluminisation characteristics on the microstructure of single phase β-(Ni,Pt)Al coating and the isothermal oxidation behaviour , 2016 .
[172] P. Xiao,et al. Buckling failure in air-plasma sprayed thermal barrier coatings induced by molten silicate attack , 2016 .
[173] Hongbo Guo,et al. Deposition mechanisms of yttria-stabilized zirconia coatings during plasma spray physical vapor deposition , 2016 .
[174] Fu-hui Wang,et al. TEM study of the evolution of sputtered Ni+CrAlYSiHfN nanocomposite coating with an AlN diffusion barrier at high temperature , 2016 .
[175] H. Ochiai,et al. A novel low-thermal-conductivity plasma-sprayed thermal barrier coating controlled by large pores , 2016 .
[176] Hui Peng,et al. Protectiveness of Pt and Gd2Zr2O7 layers on EB-PVD YSZ thermal barrier coatings against calcium–magnesium–alumina–silicate (CMAS) attack , 2015 .
[177] A. Tarancón,et al. High-temperature anion and proton conduction in RE3NbO7 (RE = La, Gd, Y, Yb, Lu) compounds , 2015 .
[178] Guang-Rong Li,et al. Relationship Between Lamellar Structure and Elastic Modulus of Thermally Sprayed Thermal Barrier Coatings with Intra-splat Cracks , 2015, Journal of Thermal Spray Technology.
[179] Fu-hui Wang,et al. Comparative study of oxidation and interdiffusion behavior of AIP NiCrAlY and sputtered nanocrystalline coatings on a nickel-based single-crystal superalloy , 2015 .
[180] Min Liu,et al. Toughness and elasticity behaviors in nano-structured 7wt.% Y2O3-stabilized ZrO2 coating , 2015 .
[181] E. Jordan,et al. Cyclic furnace testing and life predictions of thermal barrier coating spallation subject to a step change in temperature or in cycle duration , 2015 .
[182] R. Mücke,et al. Porosity-Property Relationships of Plasma-Sprayed Gd 2 Zr 2 O 7 /YSZ Thermal Barrier Coatings , 2015 .
[183] S. Björklund,et al. Performance Testing of Suspension Plasma Sprayed Thermal Barrier Coatings Produced with Varied Suspension Parameters , 2015 .
[184] R. Eriksson,et al. Stresses and Cracking During Chromia-Spinel-NiO Cluster Formation in TBC Systems , 2015, Journal of Thermal Spray Technology.
[185] G. Sivakumar,et al. Hybrid Processing with Powders and Solutions: A Novel Approach to Deposit Composite Coatings , 2015, Journal of Thermal Spray Technology.
[186] Yiguang Wang,et al. Microstructure and oxidation behavior of conventional and pseudo graded NiCrAlY/YSZ thermal barrier coatings produced by supersonic air plasma spraying process , 2015 .
[187] C. Levi,et al. The thermal behavior of CMAS-infiltrated thermal barrier coatings , 2015 .
[188] Stefan Björklund,et al. Characterization of Microstructure and Thermal Properties of YSZ Coatings Obtained by Axial Suspension Plasma Spraying (ASPS) , 2015, Journal of Thermal Spray Technology.
[189] Chang-jiu Li,et al. Characterization of Plasma Jet in Plasma Spray-Physical Vapor Deposition of YSZ Using a <80 kW Shrouded Torch Based on Optical Emission Spectroscopy , 2015, Journal of Thermal Spray Technology.
[190] Fu-hui Wang,et al. Yttria partially stabilised zirconia as diffusion barrier between NiCrAlY and Ni-base single crystal Rene N5 superalloy , 2015 .
[191] Z. Ma,et al. The preparation and properties of Sm2Zr2O7 coatings by plasma spraying , 2015 .
[192] D. Wolfe,et al. Thermal conductivity and stability of multilayered thermal barrier coatings under high temperature annealing conditions , 2015 .
[193] R. W. Jackson,et al. Interaction of molten silicates with thermal barrier coatings under temperature gradients , 2015 .
[194] N. Markocsan,et al. Influence of bond coat surface roughness on the structure of axial suspension plasma spray thermal barrier coatings — Thermal and lifetime performance , 2015 .
[195] Xiao-Tao Luo,et al. Morphology and Size Evolution of Interlamellar Two-Dimensional Pores in Plasma-Sprayed La2Zr2O7 Coatings During Thermal Exposure at 1300 °C , 2015, Journal of Thermal Spray Technology.
[196] Chang-jiu Li,et al. Propagation feature of cracks in plasma-sprayed YSZ coatings under gradient thermal cycling , 2015 .
[197] V. Shklover,et al. High-temperature interaction of yttria stabilized zirconia coatings with CaO–MgO–Al2O3–SiO2 (CMAS) deposits , 2015 .
[198] David L. Poerschke,et al. Effects of cation substitution and temperature on the interaction between thermal barrier oxides and molten CMAS , 2015 .
[199] Huimin Xie,et al. Simulation of residual stresses and their effects on thermal barrier coating systems using finite element method , 2015 .
[200] P. Sokołowski,et al. The key process parameters influencing formation of columnar microstructure in suspension plasma sprayed zirconia coatings , 2014 .
[201] Valerie L. Wiesner,et al. Crystallization Kinetics of Calcium-magnesium Aluminosilicate (CMAS) Glass , 2014 .
[202] W. Kriven,et al. High‐Temperature Properties and Ferroelastic Phase Transitions in Rare‐Earth Niobates (LnNbO4) , 2014 .
[203] D. Clarke,et al. First-principles calculations of the high-temperature phase transformation in yttrium tantalate , 2014 .
[204] Hongbo Guo,et al. Plasma-sprayed La2Ce2O7 thermal barrier coatings against calcium–magnesium–alumina–silicate penetration , 2014 .
[205] Ling Liu,et al. Thermal properties of Sm2Zr2O7–NiCr2O4 composites , 2014 .
[206] Georg Mauer,et al. Plasma Characteristics and Plasma-Feedstock Interaction Under PS-PVD Process Conditions , 2014, Plasma Chemistry and Plasma Processing.
[207] M. Kim,et al. Residual stress analysis of the thermal barrier coating system by considering the plasma spraying process , 2014 .
[208] J. Fergus. Zirconia and Pyrochlore Oxides for Thermal Barrier Coatings in Gas Turbine Engines , 2014 .
[209] H. Inoue,et al. Thermal and optical properties of La_2O_3-Nb_2O_5 high refractive index glasses , 2014 .
[210] M. Rahimipour,et al. Evaluation of hot corrosion behavior of CSZ, CSZ/micro Al2O3 and CSZ/nano Al2O3 plasma sprayed thermal barrier coatings , 2014 .
[211] Xiao-Tao Luo,et al. Effect of TGO Thickness on Thermal Cyclic Lifetime and Failure Mode of Plasma‐Sprayed TBCs , 2014 .
[212] Chunsheng Lu,et al. Finite Element Simulation on Thermal Fatigue of a Turbine Blade with Thermal Barrier Coatings , 2014 .
[213] Hector F. Garces,et al. In situ Raman spectroscopy studies of high-temperature degradation of thermal barrier coatings by molten silicate deposits , 2014 .
[214] Chen Jiang,et al. Low Thermal Conductivity Yttria-Stabilized Zirconia Thermal Barrier Coatings Using the Solution Precursor Plasma Spray Process , 2014, Journal of Thermal Spray Technology.
[215] Lifu Wu,et al. Numerical and Experimental Investigation of Residual Stress in Thermal Barrier Coatings During APS Process , 2014, Journal of Thermal Spray Technology.
[216] Raheleh Ahmadi-Pidani,et al. Comparison of hot corrosion behaviors of plasma-sprayed nanostructured and conventional YSZ thermal barrier coatings exposure to molten vanadium pentoxide and sodium sulfate , 2014 .
[217] N. Fleck,et al. A brick model for asperity sintering and creep of APS TBCs , 2014 .
[218] Chang-jiu Li,et al. Critical bonding temperature for the splat bonding formation during plasma spraying of ceramic materials , 2013 .
[219] Chang-jiu Li,et al. Modeling Thermal Conductivity of Thermally Sprayed Coatings with Intrasplat Cracks , 2013, Journal of Thermal Spray Technology.
[220] T. Clyne,et al. Deposition of Ingested Volcanic Ash on Surfaces in the Turbine of a Small Jet Engine , 2013 .
[221] Shengmin Guo,et al. An investigation on hot corrosion behavior of YSZ-Ta2O5 in Na2SO4 + V2O5 salt at 1100 °C , 2013 .
[222] Chang-jiu Li,et al. Evolution of Lamellar Interface Cracks During Isothermal Cyclic Test of Plasma-Sprayed 8YSZ Coating with a Columnar-Structured YSZ Interlayer , 2013, Journal of Thermal Spray Technology.
[223] Mahmood Mamivand,et al. Phase Field Modeling of the Tetragonal-to-Monoclinic Phase Transformation in Zirconia , 2013 .
[224] Dongming Zhu,et al. Furnace cyclic oxidation behavior of multicomponent low conductivity thermal barrier coatings , 2013 .
[225] P. Xiao,et al. Sintering of electron beam physical vapor deposited thermal barrier coatings under flame shock , 2013 .
[226] I. Gulyaev. Production and modification of hollow powders in plasma under controlled pressure , 2013 .
[227] M. Cherkaoui,et al. Transformations and cracks in zirconia films leading to breakaway oxidation of Zircaloy , 2013 .
[228] T. J. Wang,et al. Local stress around cap-like portions of anisotropically and nonuniformly grown oxide layer in thermal barrier coating system , 2013, Journal of Materials Science.
[229] W. Pan,et al. Thermal conductivity of rare earth zirconate pyrochlore from first principles , 2013 .
[230] R. Vaßen,et al. Process development and coating characteristics of plasma spray-PVD , 2013 .
[231] Arvind Kumar,et al. Study of impingement of hollow ZrO2 droplets onto a substrate , 2013 .
[232] S. Aruna,et al. Properties of plasma sprayed La2Zr2O7 coating fabricated from powder synthesized by a single-step solution combustion method , 2013 .
[233] Tie-jun Wang,et al. Local stress evolution in thermal barrier coating system during isothermal growth of irregular oxide layer , 2013 .
[234] Chang-jiu Li,et al. Improvement of Adhesion and Cohesion in Plasma-Sprayed Ceramic Coatings by Heterogeneous Modification of Nonbonded Lamellar Interface Using High Strength Adhesive Infiltration , 2013, Journal of Thermal Spray Technology.
[235] J. Sieniawski,et al. The Technology of Plasma Spray Physical Vapour Deposition , 2013 .
[236] Hongbo Guo,et al. Influence of Gd2O3 and Yb2O3 Co-doping on Phase Stability, Thermo-physical Properties and Sintering of 8YSZ , 2012 .
[237] W. Chen,et al. Influence of Thermal Cycle Frequency on the TGO Growth and Cracking Behaviors of an APS-TBC , 2012, Journal of Thermal Spray Technology.
[238] Carlos G. Levi,et al. Environmental degradation of thermal-barrier coatings by molten deposits , 2012 .
[239] Anthony G. Evans,et al. Experiments and numerical simulations of single particle foreign object damage-like impacts of thermal barrier coatings , 2012 .
[240] Tie-jun Wang,et al. The effect of thermally grown oxide on multiple surface cracking in air plasma sprayed thermal barrier coating system , 2012 .
[241] J. Absi,et al. Finite Element Modeling of the Different Failure Mechanisms of a Plasma Sprayed Thermal Barrier Coatings System , 2012, Journal of Thermal Spray Technology.
[242] K. Kawagishi,et al. Morphological evolution of thermal barrier coatings with equilibrium (EQ) and NiCoCrAlY bond coats during thermal cycling , 2012 .
[243] Yulei Wang,et al. Thermal shock behavior of 8YSZ and double-ceramic-layer La2Zr2O7/8YSZ thermal barrier coatings fabricated by atmospheric plasma spraying , 2012 .
[244] Fu-hui Wang,et al. Preparation and oxidation behaviour of nanocrystalline Ni + CrAlYSiN composite coating with AlN diffusion barrier on Ni-based superalloy K417 , 2012 .
[245] Julie M. Drexler,et al. Plasma sprayed gadolinium zirconate thermal barrier coatings that are resistant to damage by molten Ca–Mg–Al–silicate glass , 2012 .
[246] C. Hämmerle,et al. Effect of blasting pressure, abrasive particle size and grade on phase transformation and morphological change of dental zirconia surface , 2012 .
[247] Georg Mauer,et al. Process Conditions and Microstructures of Ceramic Coatings by Gas Phase Deposition Based on Plasma Spraying , 2012, Journal of Thermal Spray Technology.
[248] K. Biesiada,et al. Corrosion Failures in Gas Turbine Hot Components , 2012, Journal of Failure Analysis and Prevention.
[249] G. Bertrand,et al. Optimizing Compliance and Thermal Conductivity of Plasma Sprayed Thermal Barrier Coatings via Controlled Powders and Processing Strategies , 2012, Journal of Thermal Spray Technology.
[250] Chungen Zhou,et al. Evaluation of TGO growth in thermal barrier coatings using impedance spectroscopy , 2011 .
[251] Tie-jun Wang,et al. The surface cracking behavior in air plasma sprayed thermal barrier coating system incorporating interface roughness effect , 2011 .
[252] D. Stöver,et al. Atmospheric plasma sprayed thermal barrier coatings with high segmentation crack densities: Spraying process, microstructure and thermal cycling behavior , 2011 .
[253] Chang-jiu Li,et al. A Novel Plasma-Sprayed Durable Thermal Barrier Coating with a Well-Bonded YSZ Interlayer Between Porous YSZ and Bond Coat , 2011, Journal of Thermal Spray Technology.
[254] L. Lorenzoni,et al. Solid particle erosion of thermal spray and physical vapour deposition thermal barrier coatings , 2011 .
[255] G. Fantozzi,et al. Microcracking of high zirconia refractories after t→m phase transition during cooling: An EBSD study , 2011 .
[256] T. Narita. Diffusion barrier coating system concept for high temperature applications , 2011 .
[257] Julie M. Drexler,et al. Jet Engine Coatings for Resisting Volcanic Ash Damage , 2011, Advanced materials.
[258] F. Pettit. Hot Corrosion of Metals and Alloys , 2011 .
[259] Konstantin von Niessen,et al. Plasma Spray-PVD: A New Thermal Spray Process to Deposit Out of the Vapor Phase , 2011 .
[260] F. Pettit,et al. Comparison of the Failures during Cyclic Oxidation of Yttria-Stabilized (7 to 8 Weight Percent) Zirconia Thermal Barrier Coatings Fabricated via Electron Beam Physical Vapor Deposition and Air Plasma Spray , 2011 .
[261] Ghislain Montavon,et al. Engineering a new class of thermal spray nano-based microstructures from agglomerated nanostructured particles, suspensions and solutions: an invited review , 2011 .
[262] Z. Ma,et al. Thermophysical Properties of (MgxLa0.5−xSm0.5)2(Zr0.7Ce0.3)2O7−x (x=0, 0.1, 0.2, 0.3) Ceramic for Thermal Barrier Coatings , 2011 .
[263] Xizhi Fan,et al. Thermal cycling failure of new LaMgAl11O19/YSZ double ceramic top coat thermal barrier coating systems , 2011 .
[264] Wei Pan,et al. Order–Disorder Transition and Unconventional Thermal Conductivities of the (Sm1−xYbx)2Zr2O7 Series , 2011 .
[265] T. Pollock,et al. A comparative investigation of oxide formation on EQ (Equilibrium) and NiCoCrAlY bond coats under stepped thermal cycling , 2011 .
[266] Chang-jiu Li,et al. Thermal fatigue behavior of thermal barrier coatings with the MCrAlY bond coats by cold spraying and low-pressure plasma spraying , 2010 .
[267] Julie M. Drexler,et al. Air-plasma-sprayed thermal barrier coatings that are resistant to high-temperature attack by glassy deposits , 2010 .
[268] E. Lara‐Curzio,et al. Anisotropic elastic properties of thermal spray coatings determined via resonant ultrasound spectroscopy , 2010 .
[269] J. Nicholls,et al. Evolution of stress and morphology in thermal barrier coatings , 2010 .
[270] L. Colombo,et al. First-principles study of the effect of pressure on the five zirconia polymorphs. I. Structural, vibrational, and thermoelastic properties , 2010 .
[271] Limin He,et al. Hot corrosion behavior of rare earth zirconates and yttria partially stabilized zirconia thermal barrier coatings , 2010 .
[272] Hongbo Guo,et al. Microstructure and Thermal Properties of Plasma Sprayed Thermal Barrier Coatings from Nanostructured YSZ , 2010 .
[273] V. S. Raja,et al. Hot corrosion of YSZ/Al2O3 dispersed NiCrAlY plasma-sprayed coatings in Na2SO4-10 wt.% NaCl melt , 2010 .
[274] Yanfeng Gao,et al. Design, Preparation, and Characterization of Graded YSZ/La2Zr2O7 Thermal Barrier Coatings , 2010 .
[275] Julie M. Drexler,et al. Thermal-gradient testing of thermal barrier coatings under simultaneous attack by molten glassy deposits and its mitigation , 2010 .
[276] J. Absi,et al. Effect of Residual Stresses and Prediction of Possible Failure Mechanisms on Thermal Barrier Coating System by Finite Element Method , 2010 .
[277] N. Fleck,et al. The erosion of EB-PVD thermal barrier coatings: The competition between mechanisms , 2010 .
[278] B. Marple,et al. A Preliminary Study of the Oxidation Behavior of TBC with Cold Spray CoNiCrAlY Bond Coat , 2010, International Thermal Spray Conference.
[279] D. Stöver,et al. Columnar-Structured Thermal Barrier Coatings (TBCs) by Thin Film Low-Pressure Plasma Spraying (LPPS-TF) , 2010, International Thermal Spray Conference.
[280] Hong Li,et al. Ion-plated Al―Al2O3 films as diffusion barriers between NiCrAlY coating and orthorhombic-Ti2AlNb alloy , 2010 .
[281] Shizheng Zhu,et al. Arc ion plated-Cr2O3 intermediate film as a diffusion barrier between NiCrAlY and γ-TiAl , 2010 .
[282] N. Fleck,et al. The elastic-plastic indentation response of a columnar thermal barrier coating , 2010 .
[283] Maria A. Kuczmarski,et al. Development and Life Prediction of Erosion Resistant Turbine Low Conductivity Thermal Barrier Coatings , 2010 .
[284] J. Yu,et al. Thermal conductivity of plasma sprayed Sm2Zr2O7 coatings , 2010 .
[285] J. Perepezko. The Hotter the Engine, the Better , 2009, Science.
[286] Yanfeng Gao,et al. Thermophysical properties of lanthanum zirconate coating prepared by plasma spraying and the influence of post-annealing , 2009 .
[287] W. Pan,et al. Thermal Conductivity of Monazite-Type REPO4 (RE=La, Ce, Nd, Sm, Eu, Gd) , 2009 .
[288] J. Nicholls,et al. Effect of microstructure and temperature on the erosion rates and mechanisms of modified EB PVD TBCs , 2009 .
[289] Toshio Nakamura,et al. Erosion mechanisms of thermally sprayed coatings with multiple phases , 2009 .
[290] T. Coyle,et al. Modeling the Build-Up of Internal Stresses in Multilayer Thick Thermal Barrier Coatings , 2009 .
[291] David R. Clarke,et al. The Tetragonal-Monoclinic Transformation in Zirconia: Lessons Learned and Future Trends , 2009 .
[292] Wang Lu,et al. Molecular dynamics calculation of thermal expansion coefficient of a series of rare-earth zirconates , 2009 .
[293] K. Kang,et al. Numerical simulation of displacement instabilities of surface grooves on an alumina forming alloy during thermal cycling oxidation , 2009 .
[294] Hongbo Guo,et al. Thermo-Physical Properties and Thermal Shock Resistance of Segmented La2Ce2O7/YSZ Thermal Barrier Coatings , 2009 .
[295] W. Li,et al. Interdiffusion reaction in the CrN interlayer in the NiCrAlY/CrN/DSM11 system during thermal treatment , 2009 .
[296] N. Yamaguchi,et al. Thermal conductivity and thermal cycle life of La2O3 and HfO2 doped ZrO2–Y2O3 coatings produced by EB-PVD , 2009 .
[297] K. Bobzin,et al. Modeling and Simulation of Microstructure Formation for Porosity Prediction in Thermal Barrier Coatings Under Air Plasma Spraying Condition , 2009 .
[298] J. Tirillò,et al. Plasma sprayed composite coatings obtained by liquid injection of secondary phases , 2009 .
[299] T. Xiong,et al. Preparation and hot corrosion behaviour of an Al-gradient NiCoCrAlYSiB coating on a Ni-base superalloy , 2009 .
[300] Hsin Wang,et al. Effect of the Starting Microstructure on the Thermal Properties of As-Sprayed and Thermally Exposed Plasma-Sprayed YSZ Coatings , 2009 .
[301] L. Singheiser,et al. Failure mechanisms of thermal barrier coatings on MCrAlY-type bondcoats associated with the formation of the thermally grown oxide , 2009 .
[302] T. Clyne,et al. A sintering model for plasma-sprayed zirconia TBCs. Part I: Free-standing coatings , 2009 .
[303] T. Clyne,et al. A sintering model for plasma-sprayed zirconia thermal barrier coatings. Part II: Coatings bonded to a rigid substrate , 2009 .
[304] X. Chen,et al. On stresses induced in a thermal barrier coating due to indentation testing , 2009 .
[305] T. Clyne,et al. Sintering characteristics of plasma sprayed zirconia coatings containing different stabilisers , 2009 .
[306] I. Gulyaev,et al. Plasma processing and deposition of powdered metal oxides consisting of hollow spherical particles , 2008 .
[307] Jürgen Malzbender,et al. Yb2O3 and Gd2O3 doped strontium zirconate for thermal barrier coatings , 2008 .
[308] S. Marinetti,et al. Thermophysical, mechanical and microstructural characterization of aged free-standing plasma-sprayed zirconia coatings , 2008 .
[309] A. Evans,et al. Mechanisms of cracking and delamination within thick thermal barrier systems in aero-engines subject to calcium-magnesium-alumino-silicate (CMAS) penetration , 2008 .
[310] Hsin Wang,et al. Microstructure–Thermal Conductivity Relationships for Plasma‐Sprayed Yttria‐Stabilized Zirconia Coatings , 2008 .
[311] J. Nicholls,et al. Erosion, corrosion and erosion–corrosion of EB PVD thermal barrier coatings , 2008 .
[312] Wang Fu-chi,et al. Thermophysical Properties of Complex Rare‐Earth Zirconate Ceramic for Thermal Barrier Coatings , 2008 .
[313] P. Fauchais,et al. Operating parameters for suspension and solution plasma-spray coatings , 2008 .
[314] B. Marple,et al. Toward Highly Sintering-Resistant Nanostructured ZrO2-7wt.%Y2O3 Coatings for TBC Applications by Employing Differential Sintering , 2008, International Thermal Spray Conference.
[315] Xiao Huang,et al. TGO Growth and Crack Propagation in a Thermal Barrier Coating , 2008, International Thermal Spray Conference.
[316] Maria Maddalena Carnasciali,et al. Raman characterisation of powder of cubic RE2O3 (RE = Nd, Gd, Dy, Tm, and Lu), Sc2O3 and Y2O3 , 2008 .
[317] S. Gong,et al. Novel thermal barrier coatings based on La2Ce2O7/8YSZ double-ceramic-layer systems deposited by electron beam physical vapor deposition , 2008 .
[318] P. Patnaik,et al. TGO growth behaviour in TBCs with APS and HVOF bond coats , 2008 .
[319] T. Xiong,et al. Corrosion behaviour of AIP NiCoCrAlYSiB coating in salt spray tests , 2008 .
[320] P. Fauchais,et al. Parameters Controlling Liquid Plasma Spraying: Solutions, Sols, or Suspensions , 2008 .
[321] T. Clyne,et al. Effects of Impurity Content on the Sintering Characteristics of Plasma-Sprayed Zirconia , 2007 .
[322] C. Moreau,et al. Yttria-Stabilized Zirconia Thermal Barriers Sprayed Using N2-H2 and Ar-H2 Plasmas: Influence of Processing and Heat Treatment on Coating Properties , 2007 .
[323] W. Pan,et al. Thermal Expansion and Defect Chemistry of MgO-Doped Sm2Zr2O7 , 2007 .
[324] J. Nicholls,et al. A review of the erosion of thermal barrier coatings , 2007 .
[325] K. Idemitsu,et al. Thermophysical Properties of Rare-Earth-Stabilized Zirconia and Zirconate Pyrochlores as Surrogates for Actinide-Doped Zirconia , 2007 .
[326] S. Gong,et al. Heat treatment of nanostructured thermal barrier coating , 2007 .
[327] C. O'Dowd,et al. Marine aerosol production: a review of the current knowledge , 2007, Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences.
[328] N. Bansal,et al. Effects of Doping on Thermal Conductivity of Pyrochlore Oxides for Advanced Thermal Barrier Coatings , 2007 .
[329] A. Evans,et al. The mechanics of coating delamination in thermal gradients , 2007 .
[330] T. W. Clyne,et al. Properties and Performance of High-Purity Thermal Barrier Coatings , 2007, International Thermal Spray Conference.
[331] Basil R. Marple,et al. Thermal Spray Coatings Engineered from Nanostructured Ceramic Agglomerated Powders for Structural, Thermal Barrier and Biomedical Applications: A Review , 2007 .
[332] J. Yang,et al. Thermochemical Interaction of Thermal Barrier Coatings with Molten CaO–MgO–Al2O3–SiO2 (CMAS) Deposits , 2006 .
[333] C. Berndt,et al. Nanostructured and conventional YSZ coatings deposited using APS and TTPR techniques , 2006 .
[334] S. Chandra,et al. Investigation of splat curling up in thermal spray coatings , 2006, International Thermal Spray Conference.
[335] N. Fleck,et al. Scaling laws governing the erosion and impact resistance of thermal barrier coatings , 2006 .
[336] Hongbo Guo,et al. Microstructures and Properties of Plasma-Sprayed Segmented Thermal Barrier Coatings , 2006 .
[337] B. Movchan. Inorganic materials and coatings produced by EBPVD , 2006 .
[338] H. Sugihara,et al. Photocatalytic activity of R3MO7 and R2Ti2O7 (R=Y, Gd, La; M=Nb, Ta) for water splitting into H2 and O2. , 2006, The journal of physical chemistry. B.
[339] T. Narita,et al. Development of Re‐based diffusion barrier coatings on nickel based superalloys , 2005 .
[340] Xu Qiang,et al. Preparation and thermophysical properties of Dy2Zr2O7 ceramic for thermal barrier coatings , 2005 .
[341] S. Bohn. Hierarchical crack patterns: a comparison with two-dimensional soap foams , 2005 .
[342] David R. Clarke,et al. Thermal barrier coating materials , 2005 .
[343] S. Gong,et al. Experimental and computational study on hot fatigue process of thermal barrier coatings by EB-PVD , 2005 .
[344] Y. Couder,et al. Four sided domains in hierarchical space dividing patterns. , 2005, Physical review letters.
[345] A. Evans,et al. A delamination mechanism for thermal barrier coatings subject to calcium-magnesium-alumino-silicate (CMAS) infiltration , 2005 .
[346] U. Schulz. Phase Transformation in EB-PVD Yttria Partially Stabilized Zirconia Thermal Barrier Coatings During Annealing , 2004 .
[347] F. Tietz,et al. Thermal Stability of Lanthanum Zirconate Plasma‐Sprayed Coating , 2004 .
[348] Robert Vassen,et al. Zirconates as New Materials for Thermal Barrier Coatings , 2004 .
[349] N. Padture,et al. Low‐Thermal‐Conductivity Rare‐Earth Zirconates for Potential Thermal‐Barrier‐Coating Applications , 2004 .
[350] W. Pan,et al. Thermal Conductivity of the New Candidate Materials for Thermal Barrier Coatings , 2004 .
[351] S. Gong,et al. Thermal cycling life and thermal diffusivity of a plasma-sprayed nanostructured thermal barrier coating , 2004 .
[352] B. Cetegen,et al. Modeling of plasma assisted formation of precipitates in zirconium containing liquid precursor droplets , 2004 .
[353] B. Jang,et al. Computer simulation of nano-pore formation in EB-PVD thermal barrier coatings , 2004 .
[354] S. Tjong,et al. Nanocrystalline materials and coatings , 2004 .
[355] P. Fauchais,et al. Knowledge concerning splat formation: An invited review , 2004 .
[356] D. Stöver,et al. Sintering and creep processes in plasma-sprayed thermal barrier coatings , 2004 .
[357] P. Vuoristo,et al. Modelling of thermal conductivity of porous materials: application to thick thermal barrier coatings , 2004 .
[358] S. Guo,et al. Young's moduli of zirconia top-coat and thermally grown oxide in a plasma-sprayed thermal barrier coating system , 2004 .
[359] Chang-jiu Li,et al. Transient contact pressure during flattening of thermal spray droplet and its effect on splat formation , 2004 .
[360] Y. Hinatsu,et al. Crystal structures and magnetic properties of rare earth tantalates RE3TaO7 (RE = rare earths) , 2004 .
[361] Jogender Singh,et al. Tailored microstructure of zirconia and hafnia-based thermal barrier coatings with low thermal conductivity and high hemispherical reflectance by EB-PVD , 2004 .
[362] A. Evans,et al. Simulation of the high temperature impression of thermal barrier coatings with columnar microstructure , 2004 .
[363] R. Brenner,et al. Determination of residual stresses in a zirconia layer by X-ray diffraction and by a micromechanical approach: thermoelastic anisotropy effect , 2003 .
[364] Carlos G. Levi,et al. MATERIALS DESIGN FOR THE NEXT GENERATION THERMAL BARRIER COATINGS , 2003 .
[365] J. Nicholls,et al. On the effect of ageing on the erosion of EB-PVD TBCs , 2003 .
[366] A. Evans,et al. Foreign object damage in a thermal barrier system: Mechanisms and simulations , 2003 .
[367] T. Clyne,et al. The effect of a high thermal gradient on sintering and stiffening in the top coat of a thermal barrier coating system , 2003, Thermal Spray 2003: Proceedings from the International Thermal Spray Conference.
[368] G. Lamouche,et al. Elastic modulus measurements via laser-ultrasonic and knoop indentation techniques in thermally sprayed coatings , 2003, Thermal Spray 2003: Proceedings from the International Thermal Spray Conference.
[369] G. G. Long,et al. Comprehensive microstructural characterization and predictive property modeling of plasma-sprayed zirconia coatings , 2003 .
[370] N. Padture,et al. Thermal conductivity of ceramics in the ZrO_2-GdO_1.5system , 2002 .
[371] Klod Kokini,et al. Thermal shock of functionally graded thermal barrier coatings with similar thermal resistance , 2002 .
[372] P. Xiao,et al. Degradation of thermal barrier coatings due to thermal cycling up to 1150°C , 2002 .
[373] C. Berndt,et al. Bimodal distribution of mechanical properties on plasma sprayed nanostructured partially stabilized zirconia , 2002 .
[374] E. Jordan,et al. Thermal Barrier Coatings for Gas-Turbine Engine Applications , 2002, Science.
[375] Yi Zeng,et al. Atmospheric plasma sprayed coatings of nanostructured zirconia , 2002 .
[376] C. Ding,et al. Nanostructured zirconia coating prepared by atmospheric plasma spraying , 2002 .
[377] C. Berndt,et al. Integrity of nanostructured partially stabilized zirconia after plasma spray processing , 2001 .
[378] D. Stöver,et al. Influence of impurity content and porosity of plasma-sprayed yttria-stabilized zirconia layers on the sintering behaviour , 2001 .
[379] J. A. Thompson,et al. THE EFFECT OF HEAT TREATMENT ON THE STIFFNESS OF ZIRCONIA TOP COATS IN PLASMA-SPRAYED TBCs , 2001 .
[380] I. Gurrappa,et al. Identification of hot corrosion resistant MCrAlY based bond coatings for gas turbine engine applications , 2001 .
[381] H. Herman,et al. Role of condensates and adsorbates on substrate surface on fragmentation of impinging molten droplets during thermal spray , 2001 .
[382] P. Liaw,et al. The mechanical properties of nanostructured materials , 2001 .
[383] A. G. Evans,et al. Failure mechanisms associated with the thermally grown oxide in plasma-sprayed thermal barrier coatings , 2000 .
[384] K. Ravichandran,et al. Effect of heat treatment on the thermal conductivity of plasma-sprayed thermal barrier coatings , 2000 .
[385] 말로니마이클제이. Thermal barrier coating systems and materials , 1999 .
[386] E. Lugscheider,et al. Effect of thermal aging on the erosion resistance of air plasma sprayed zirconia thermal barrier coating , 1999 .
[387] Chang-jiu Li,et al. The relationship between microstructure and Young’s modulus of thermally sprayed ceramic coatings , 1997 .
[388] Maurice Gell,et al. Application opportunities for nanostructured materials and coatings , 1995 .
[389] T. Clyne,et al. The quenching stress in thermally sprayed coatings , 1991 .
[390] R. McPherson,et al. A review of microstructure and properties of plasma sprayed ceramic coatings , 1989 .
[391] G. J. Danek. STATE‐OF‐THE‐ART SURVEY ON HOT CORROSION IN MARINE GAS TURBINE ENGINES , 1965 .
[392] R. Swalin,et al. Thermodynamics of solids , 1962 .
[393] X. Zhang,et al. Effect of microstructure evolution and crystal structure on thermal properties for plasma-sprayed RE2SiO5 (RE = Gd, Y, Er) environmental barrier coatings , 2021 .
[394] Souvik Ghosh,et al. Synthesis and Studies on Partially Stabilized Zirconia and Rare-Earth Zirconate Pyrochlore Structured Multilayered Coatings , 2020 .
[395] Junshi Guo,et al. Features of crystal structures and thermo‐mechanical properties of weberites RE 3 NbO 7 (RE=La, Nd, Sm, Eu, Gd) ceramics , 2020 .
[396] L. Min,et al. Influence of Al-modification on CMAS Corrosion Resistance of PS-PVD 7YSZ Thermal Barrier Coatings , 2019, Journal of inorganic materials.
[397] Jing Feng,et al. Microstructure and thermal properties of RETaO4 (RE = Nd, Eu, Gd, Dy, Er, Yb, Lu) as promising thermal barrier coating materials , 2017 .
[398] D. Stoner. Degradation of Thermal-Barrier Coatings at Very High Temperatures ” , 2017 .
[399] Tie-jun Wang,et al. Effects of sintering and mixed oxide growth on the interface cracking of air-plasma-sprayed thermal barrier coating system at high temperature , 2016 .
[400] S. Björklund,et al. Hot Corrosion Mechanism in Multi-Layer Suspension Plasma Sprayed Gd2Zr2O7 /YSZ Thermal Barrier Coatings in the Presence of V2O5 + Na2SO4 , 2016, Journal of Thermal Spray Technology.
[401] Z. Xiaofeng,et al. Deposition and CMAS Corrosion Mechanism of 7YSZ Thermal Barrier Coatings Prepared by Plasma Spray-Physical Vapor Deposition , 2015 .
[402] Guanjun Yang,et al. Plasma-Sprayed Thermal Barrier Coatings with Enhanced Splat Bonding for CMAS and Corrosion Protection , 2015, Journal of Thermal Spray Technology.
[403] J. C. Hernández,et al. Diffusion–reaction of aluminum and oxygen in thermally grown Al2O3 oxide layers , 2014 .
[404] T. Clyne,et al. A methodology, based on sintering-induced stiffening, for prediction of the spallation lifetime of plasma-sprayed coatings , 2013 .
[405] M. Gupta,et al. Influence of Topcoat-Bondcoat Interface Roughness on Stresses and Lifetime in Thermal Barrier Coatings , 2013, Journal of Thermal Spray Technology.
[406] J. Sieniawski,et al. The PS-PVD method - formation of columnar TBCs on CMSX-4 superalloy , 2012 .
[407] Y. Wang,et al. Influence of pores on the thermal insulation behavior of thermal barrier coatings prepared by atmospheric plasma spray , 2011 .
[408] Malko Gindrat,et al. Vapor Phase Deposition Using Plasma Spray-PVD™ , 2010 .
[409] 周宏明,et al. Effect of rare earth doping on thermo-physical properties of lanthanum zirconate ceramic for thermal barrier coatings , 2008 .
[410] A. Refke,et al. Advanced TBC Systems by Vapor Deposition Using LPPS Thin Film , 2008 .
[411] Jeffrey P. Bons,et al. Effects of Particle Size, Gas Temperature and Metal Temperature on High Pressure Turbine Deposition in Land Based Gas Turbines From Various Synfuels , 2007 .
[412] Lu Cai,et al. Structure and dielectric properties of Ln3NbO7 (Ln = Nd, Gd, Dy, Er, Yb and Y) , 2007 .
[413] Li Fu-shun. Influence of Rare Earth Elements Additions in YSZ Ceramic Coatings of Thermal Barrier Coatings on Lattice Distortion , 2007 .
[414] Jogender Singh,et al. Review Nano and macro-structured component fabrication by electron beam-physical vapor deposition (EB-PVD) , 2005 .
[415] J. Nicholls,et al. The effect of TBC morphology on the erosion rate of EB-PVD TBCs , 2005 .
[416] M. Heb,et al. Mechanisms governing the high temperature erosion of thermal barrier coatings , 2004 .
[417] C. J. Li,et al. Relationships between the microstructure and properties of thermally sprayed deposits , 2002 .
[418] M. May. Heat treatment , 1993, Nature.
[419] Richard W. Siegel,et al. Nanostructured materials -mind over matter- , 1993 .