[Oral Presentation]Improving the durability and investing failure behavior of multi-layer TBCs under thermal cycling-CMAS test

Improving the durability and investing failure behavior of multi-layer TBCs under thermal cycling-CMAS test
ID:48 Submission ID:65 View Protection:ATTENDEE Updated Time:2024-10-13 21:35:50 Hits:271 Oral Presentation

Start Time:2024-10-19 18:10 (Asia/Shanghai)

Duration:15min

Session:[S4] Thermal/Cold Spray Coating Technologies » [S4A] Session 4A

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Abstract
Atmospheric plasma spraying (APS) was used to fabricate 4.5 mol% Y2O3 stabilized ZrO2 (YSZ) and 4.0 mol% Yb2O3 and 0.5 mol% Y2O3 co-stabilized ZrO2 (YbYSZ) series coatings with different spraying parameters. Effects of particle size of feed powder, substrate temperature and transfer speed on the microstructure and performance of thermal barrier coatings (TBCs) is investigated. Lower substrate temperatures can lead to vertical cracks, finer powders can introduce more microdefects, and conventional sized powders can form larger pores. A coating deposited using a conventional feed powder at a substrate temperature of 800 ℃ shows excellent sintering resistance. A coating deposited using a fine feed powder on 800 ℃ substrate exhibits the best calcium‑magnesium-alumina-silicate (CMAS) corrosion resistance. A series of coatings with embedded micro-agglomerated particles (EMAP) are prepared using different transfer speed. The thermal conductivity of EMAP coatings is lower than that of traditional YSZ coating, with EMAP coating deposited at 200 mm/s transfer speed having the lowest thermal conductivity. The thermal cycling life of EMAP coatings at transfer speeds of 600 mm/s and 800 mm/s is improved by 20.00 % and 58.33 % compared to traditional YSZ coating. On the basis of the above coatings, the multi-layer coating includes the micro-nano dual-scale layer, the dense YbYSZ layer, the porous YbYSZ layer and the laser 3D texturing layer. The lifetime of thermal cycle-CMAS test is 120% longer than that of conventional YSZ coating. In addition, its failure behavior, including fragmentation or bulk-like exfoliation, has been studied. This study emphasizes that combination of materials modification and structure optimization are a promising strategy to extend lifetime of TBCs.
 
Keywords
Thermal barrier coatings,Multi-layer coating,Thermal cycling-CMAS lifetime,Failure behavior
Speaker
Yangguang Liu
research assistant East China University of Science and Technology, China

Submission Author
阳光 刘 华东理工大学
卫泽 王 华东理工大学
文康 张 华东理工大学
凯斌 李 华东理工大学
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