Chinese Journal of Lasers, Volume. 50, Issue 4, 0402002(2023)
Hot Corrosion Resistance of 8YSZ Thermal Barrier Coating Modified by Laser Alloying
Figures & Tables(12)
Fig. 1. Surface and cross-section morphologies of as-sprayed thermal barrier coatings. (a) Surface morphology; (b) surface morphology at high magnification; (c) cross-section morphology; (d) cross-section morphology of 8YSZ ceramic coating at high magnification
Fig. 2. Surface and cross-section morphologies of laser-alloyed thermal barrier coatings. (a) Surface morphology; (b) surface morphology at high magnification; (c) cross-section morphology; (d) cross-section morphology at high magnification
Fig. 3. XRD patterns of 8YSZ powder, as-sprayed thermal barrier coating and laser-alloyed thermal barrier coatings. (a) 8YSZ powder; (b) as-sprayed thermal barrier coating; (c) laser-alloyed thermal barrier coating
Fig. 4. Surface morphology and its high magnification of as-sprayed thermal barrier coatings after 4 h hot corrosion at 900 ℃. (a) 500×; (b) 10000×
Fig. 5. XRD patterns of as-sprayed and laser-alloyed thermal barrier coatings after molten salt corrosion. (a) As-sprayed thermal barrier coating; (b) laser-alloyed thermal barrier coating
Fig. 6. Surface morphology and its high magnification of laser-alloyed thermal barrier coating after 4 h hot corrosion at 900 ℃. (a) 500×; (b) 5000×
Fig. 7. Cross-section morphology and EDS element analysis of as-sprayed thermal barrier coating after 4 h hot corrosion. (a) Cross-section morphology; (b) EDS elemental analysis
Fig. 8. Cross-section morphology and EDS element analysis of laser-alloyed thermal barrier coating after 4 h hot corrosion. (a) Cross-section morphology; (b) EDS elemental analysis
Fig. 9. Schematics of hot corrosion failure of as-sprayed and laser-alloyed thermal barrier coatings. (a) As-sprayed thermal barrier coating before hot corrosion test; (b) as-sprayed thermal barrier coating after hot corrosion test; (c) laser-alloyed thermal barrier coating before hot corrosion test; (d) self-healing process of laser-alloyed thermal barrier coating; (e) laser-alloyed thermal barrier coating after hot corrosion test
Table 1. Chemical composition of nickel-based superalloy Inconel 718
View tableTable 1. Chemical composition of nickel-based superalloy Inconel 718
Element Mass fraction /% Ni 50-55 Cr 17-21 Mo 2.8-3.3 Nb 4.75-5.5 Al 1 Co 0.08 C 0.35 Mn 0.35 Si 0.015 S 0.3 Cu 0.2-0.8 Ti 0.65-1.15 Fe Margin
Table 2. Process parameters of atmospheric plasma spraying
View tableTable 2. Process parameters of atmospheric plasma spraying
Layer Spraying current /AArgon flow /
(L·min-1)
Hydrogen flow /
(L·min-1)
Powder feed rate /(g·min-1) Spraying distance /mm Bonding layer 550-570 45 3 15 120 Ceramic layer 690-710 45 1 10 90
Table 3. Chemical composition of different areas in as-sprayed thermal barrier coating after hot corrosion
View tableTable 3. Chemical composition of different areas in as-sprayed thermal barrier coating after hot corrosion
Area in Fig. 4(b) Atomic fraction /% Zr O Y S Na A 30.0 62.3 2.6 1.8 3.2 B 18.8 63.0 1.7 4.7 11.8 C 6.4 53.5 23.6 16.5 -
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Lei Sun, Yujia Guo, Panpan Zhang, Rong Liu, Qunli Zhang, Jianhua Yao. Hot Corrosion Resistance of 8YSZ Thermal Barrier Coating Modified by Laser Alloying[J]. Chinese Journal of Lasers, 2023, 50(4): 0402002
Paper Information
Category: laser manufacturing
Received: Jan. 5, 2022
Accepted: May. 5, 2022
Published Online: Feb. 10, 2023
The Author Email: Zhang Panpan (panpanzhang166@163.com)
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