2024-03-29T12:43:52Z
https://niigata-u.repo.nii.ac.jp/oai
oai:niigata-u.repo.nii.ac.jp:00002922
2022-12-15T03:36:09Z
154:501:502
453:454
Oxidization of Thermal Barrier Coatings and Spalling Stress Analyzed with Synchrotron X-Rays
放射光による遮熱コーティングの酸化損傷とはく離応力の解析
放射光による遮熱コーティングの酸化損傷とはく離応力の解析
鈴木, 賢治
39822
久保, 貴博
39823
田中, 啓介
39824
秋庭, 義明
39825
尾角, 英毅
39826
Thermal barrier coating
Spalling stress
Synchrotron radiation
Thermally grown oxide
Residual stress
As the bond coating, NiCoCrAlY powder was atmospheric plasma-sprayed on the Ni based super-alloy (In738LC), and the thickness of the bond coating was 0.15mm. Zirconia powder with 8mass% yttria was atmospheric plasma-sprayed as the top coating, and the thickness was 0.3mm. To oxidize the specimen, the specimens were kept in air at 1373K for 0, 500, 1000 and 2000h. The cross section of each oxidized specimen was observed with a scanning electron microscope. The thermally grown oxide (TGO) consists of the alumina layer and the composite oxide layer. The thickness of alumina layer stopped to increase after 500h exposure, while the thickness of the composite oxide layer incresed monotonically. The TGO grew at the convex part of the bond coating, and pushed up the top coating. As a result, the spalling crack was initiated near the convex part. The spalling stress for each oxidized specimen was estimated by the hybrid method using the stress data obtained by laboratory X-rays and high energy synchrotron X-rays. The top coating without the oxidization did not have the spalling stress. For the oxidized specimen, the spalling stress was small beneath the surface, and steeply increased near the interface between the top and the bond coating. The spalling stress near the interface was about 200MPa. The distribution of the spalling stress for the case of the 1000h exposure was similar to that for the case of 500h. The TGO promotes the spallation of the top coating, and the distribution of the spalling stress corresponds to the observed position of spalling cracks.
journal article
日本材料学会
2004-06
application/pdf
材料
7
53
734
739
材料
AN00096175
05145163
https://niigata-u.repo.nii.ac.jp/record/2922/files/ZQ_53(7)_734-739.pdf
jpn