材料科学
无损检测
太赫兹辐射
热障涂层
光学
折射率
干扰(通信)
光谱学
噪音(视频)
涂层
光电子学
可靠性(半导体)
太赫兹光谱与技术
多孔性
显微镜
扫描电子显微镜
飞行时间
热的
剥离(纤维)
近似误差
镜头(地质)
准确度和精密度
观测误差
电子工程
温度测量
作者
Yuheng Wu,Zenghua Liu,Rui Li,Zhenhe Tang,Cunfu He
标识
DOI:10.32548/2026.me-04578
摘要
Thermal barrier coatings (TBCs) are critical for the thermal protection of aeroengine components, necessitating precise nondestructive evaluation of their thickness. While terahertz time-domain spectroscopy (THz-TDS) is a promising technique, traditional time of flight measurements are often compromised by echo overlap and noise interference due to the complex porous structure of TBCs. This paper proposes an enhanced thickness measurement method using normalized cross-correlation (NCC) time-frequency fusion. Using a reflective THz-TDS system on atmospheric plasma-sprayed samples, the NCC algorithm was employed to amplify weak interface reflections and suppress noise. By iteratively reconstructing and stripping reflected pulses, the method effectively separates overlapping echoes, allowing for the precise extraction of transit time. The refractive index was simultaneously determined via frequency-domain analysis. Comparative experiments with scanning electron microscopy (SEM) measurements demonstrated that the proposed method achieved a relative error of only 3.38%, significantly lower than the 9.10% observed with the traditional time of flight method. These results confirm that the NCC-based approach provides superior accuracy and reliability for TBC thickness characterization.
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