Crack propagation and effect of mixed oxides on TGO growth in thick La-Gd-YSZ thermal barrier coating

Thick thermal barrier coatings (TBCs) are the main choice in the aviation industry due to their ability to handle elevated temperature exposure in turbines. However, the efficacy of thick TBCs has not been adequate. This study presents a highly durable, thick top-coat (TC) of Lanthanum-gadolinium-yt...

Full description

Saved in:
Bibliographic Details
Main Authors: Mahalingam, S., Yunus, S.M., Manap, A., Afandi, N.M., Zainuddin, R.A., Kadir, N.F.
Format: Article
Language:English
Published: 2020
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.uniten.dspace-13250
record_format dspace
spelling my.uniten.dspace-132502020-07-03T03:43:55Z Crack propagation and effect of mixed oxides on TGO growth in thick La-Gd-YSZ thermal barrier coating Mahalingam, S. Yunus, S.M. Manap, A. Afandi, N.M. Zainuddin, R.A. Kadir, N.F. Thick thermal barrier coatings (TBCs) are the main choice in the aviation industry due to their ability to handle elevated temperature exposure in turbines. However, the efficacy of thick TBCs has not been adequate. This study presents a highly durable, thick top-coat (TC) of Lanthanum-gadolinium-yttria stabilized zirconia (La-Gd-YSZ) on high-velocity oxygen fuel (HVOF)-bond coat (HVOF-BC). Crack propagation was quantitatively assessed using a three-dimensional (3D) measuring laser microscope due to higher reliability in calculating the actual crack length of TBC. The findings revealed the HVOF-BC is highly durable with intact structural composition, while the conventional TBC of atmospheric plasma spraying (APS) bond coat (APS-BC) of the same composition and thickness with identical TC was detached at a crack-susceptible zone. The significant enhancement in HVOF-BC is due to the low mixed-oxides growth rate in thermally grown oxide (TGO) with a uniform and dense protective layer of stable Al2O3 which reduces crack propagation. Meanwhile, the failure in APS-BC can be attributed to the high TGO growth rate and thickness with segmented and unstable Al2O3. Furthermore, detrimental mixed oxides such as spinel Ni(Cr,Al)2O4 and NiO lead to disastrous horizontal and compressive cracks. To that end, we study the effect of TGO growth and crack propagation on HVOF-BC TBCs using APS-BC TBCs as a reference. © 2019 by the authors. 2020-02-03T03:31:21Z 2020-02-03T03:31:21Z 2019 Article 10.3390/coatings9110719 en
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
language English
description Thick thermal barrier coatings (TBCs) are the main choice in the aviation industry due to their ability to handle elevated temperature exposure in turbines. However, the efficacy of thick TBCs has not been adequate. This study presents a highly durable, thick top-coat (TC) of Lanthanum-gadolinium-yttria stabilized zirconia (La-Gd-YSZ) on high-velocity oxygen fuel (HVOF)-bond coat (HVOF-BC). Crack propagation was quantitatively assessed using a three-dimensional (3D) measuring laser microscope due to higher reliability in calculating the actual crack length of TBC. The findings revealed the HVOF-BC is highly durable with intact structural composition, while the conventional TBC of atmospheric plasma spraying (APS) bond coat (APS-BC) of the same composition and thickness with identical TC was detached at a crack-susceptible zone. The significant enhancement in HVOF-BC is due to the low mixed-oxides growth rate in thermally grown oxide (TGO) with a uniform and dense protective layer of stable Al2O3 which reduces crack propagation. Meanwhile, the failure in APS-BC can be attributed to the high TGO growth rate and thickness with segmented and unstable Al2O3. Furthermore, detrimental mixed oxides such as spinel Ni(Cr,Al)2O4 and NiO lead to disastrous horizontal and compressive cracks. To that end, we study the effect of TGO growth and crack propagation on HVOF-BC TBCs using APS-BC TBCs as a reference. © 2019 by the authors.
format Article
author Mahalingam, S.
Yunus, S.M.
Manap, A.
Afandi, N.M.
Zainuddin, R.A.
Kadir, N.F.
spellingShingle Mahalingam, S.
Yunus, S.M.
Manap, A.
Afandi, N.M.
Zainuddin, R.A.
Kadir, N.F.
Crack propagation and effect of mixed oxides on TGO growth in thick La-Gd-YSZ thermal barrier coating
author_facet Mahalingam, S.
Yunus, S.M.
Manap, A.
Afandi, N.M.
Zainuddin, R.A.
Kadir, N.F.
author_sort Mahalingam, S.
title Crack propagation and effect of mixed oxides on TGO growth in thick La-Gd-YSZ thermal barrier coating
title_short Crack propagation and effect of mixed oxides on TGO growth in thick La-Gd-YSZ thermal barrier coating
title_full Crack propagation and effect of mixed oxides on TGO growth in thick La-Gd-YSZ thermal barrier coating
title_fullStr Crack propagation and effect of mixed oxides on TGO growth in thick La-Gd-YSZ thermal barrier coating
title_full_unstemmed Crack propagation and effect of mixed oxides on TGO growth in thick La-Gd-YSZ thermal barrier coating
title_sort crack propagation and effect of mixed oxides on tgo growth in thick la-gd-ysz thermal barrier coating
publishDate 2020
_version_ 1672614218280468480
score 13.222552