[1]
|
Fang Xufei, Zhang Guobing, Feng Xue. Performance of TBCs system due to the different thickness of top ceramic layer[J]. Ceramics International, 2015, 41(2):2840-2846. |
[2]
|
Lu Z, Myoung S W, Kim E H, et al. Microstructure evolution and thermal durability with coating thickness in APS thermal barrier coatings[J]. Materials Today:Proceedings, 2014, 1(1):35-43. |
[3]
|
Moskal G, Witala B, Rozmyslowska A. Metallographic preparation of the conventional and new TBC layers[J]. Archives of Materials Science and Engineering, 2009, 39(1):53-60. |
[4]
|
Li Yong, Chen Zhenmao, Mao Ying, et al. Quantitative evaluation of thermal barrier coating based on eddy current technique[J]. NDT E International, 2012, 50(1):29-35. |
[5]
|
Ma Zhiyuan, Zhao Yang, Luo Zhongbing, et al. Ultrasonic characterization of thermally grown oxide in thermal barrier coating by reflection coefficient amplitude spectrum[J]. Ultrasonics, 2014, 54(4):1005-1009. |
[6]
|
Zhang Jinyu, Meng Xiangbing, Yang Zhengwei, et al. Numerical simulation and analysis of lock-in thermography for thickness measurement of coating[J]. Infrared and Laser Engineering, 2015, 44(1):6-11. (in Chinese) |
[7]
|
Chen Lin, Yang Li, Fan Chunli, et al. Quantitative identification of coating thickness and debonding defects of TBC by pulse technology[J]. Infrared and Laser Engineering, 2015, 44(7):2050-2056. (in Chinese) |
[8]
|
Hong Wenqing, Yao Libin, Ji Rongbin, et al. A super-frame processing method for infrared image based on accumulation of different integration time frame[J]. Optics and Precision Engineering, 2016, 24(6):1490-1501. (in Chinese) |
[9]
|
Zhao Shibin, Wang Huaming, Wu Naiming, et al. Nondestructive testing of the fatigue properties of air plasma sprayed thermal barrier coatings by pulsed thermography[J]. Thermal Methods, 2015, 51(7):445-456. |
[10]
|
Shepard Steven M, Hou Yulin, Lhota James R, et al. Thermographic measurement of thermal barrier coating thickness[C]//Proceedings of the SPIE, 2005, 5782(1):407-410. |
[11]
|
Kumar M Mahesh, Vikrant K S, Swamy M, et al. Theoretical estimation of thickness variation in thermal barrier coatings by using pulse phase thermograph[C]//11th International Conference on Quantitative Infrared Thermography, 2012, 6(1):11-14. |
[12]
|
Wang Lijun, Peng Hangyu, Zhang Jun. Advance on high power diode laser coupling[J]. Chinese Opitcs, 2015, 8(4):517-519. (in Chinese) |
[13]
|
Guo Xiantao, Huang Teng, Sheng Yueqian. Self-calibration of terrestrial laser scanner based on stochastic inner constraint information of estimated parameters[J]. Optics and Precision Engineering, 2016, 24(6):1319-1327. (in Chinese) |
[14]
|
Dong Lei, Liu Xinyue, Chen Hao. Properties of pulse single-frequency laser and extra-cavity double frequency green laser[J]. Chinese Opitcs, 2015, 8(5):800-806. (in Chinese) |
[15]
|
Grzgorz Ptaszek, Cawley Peter, Almond Darryl, et al. Artificial disbands for calibration of transient thermography inspection of thermal barrier coatings systems[J]. NDT E International, 2012, 45(1):71-78. |
[16]
|
Zhao Y, Ma Zhenyue, Lin Li, et al. A method for ultrasonic characterization of density, thickness and velocity of homogeneous coating[J]. Materials Science Forum, 2011, 675(677):1217-1220. |