Thickness measurement of polychlorotrifluoroethylene coating over metallic seal using terahertz time-domain spectroscopy

IF 3 3区材料科学 Q2 MATERIALS SCIENCE, CHARACTERIZATION & TESTING

Nondestructive Testing and Evaluation Pub Date : 2023-11-01 DOI:10.1080/10589759.2023.2274020

B Nidheesh Kumar, M C Santhosh Kumar, A Mercy Latha, Sachinlal Aroliveetil, M Nallaperumal, Krishnan Balasubramaniam, S Remakanthan, K K Moideenkutty, Shyam S Nair, L Mohan Kumar

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引用次数: 0

Abstract

ABSTRACTPolychlorotrifluoroethylene is used as a coating material over metallic seals in low-temperature applications to arrest fluid leakage from the impeller side in turbopumps. Typically, polychlorotrifluoroethylene coating is applied on V-type seals, with a thickness ranging from 80 to 130 μm by spraying an emulsion over the substrate followed by heat treatment. An attempt has been made to measure the polychlorotrifluoroethylene coating thickness over V-type seals using terahertz time-domain spectroscopy in reflection geometry, a noncontact, non-invasive NDT method. When the terahertz pulse from a transmitter photo-conductive antenna is incident on the V-type seal, it penetrates through the polychlorotrifluoroethylene coating. It gets reflected from the coating/base coat interface. Here, the reflected echoes from the air-to-polychlorotrifluoroethylene coating interface and polychlorotrifluoroethylene coating to the basecoat interface get overlapped in the time domain as the polychlorotrifluoroethylene coating layer is very thin. The sparse deconvolution technique separates the individual reflected signals and obtains the time delay signals from various interfaces. From the estimation of time delay values, the thickness of the coating has been computed using the refractive index value extracted using terahertz time-domain spectroscopy in transmission mode before the reflection measurements. The obtained thickness values are in close agreement with the coating thickness measured using optical microscopy.KEYWORDS: PolychlorotrifluroethyleneThz time-domain spectroscopythickness estimationreflection geometryseal AcknowledgmentsWe would like to thank Shri. Srirangam Siripothu and their team at PCM/VSSC for the support offered in sample preparation.Disclosure statementNo potential conflict of interest was reported by the author(s).Data availability statementThe data supporting this study’s findings are available from the corresponding authors upon reasonable request. No third-party data has been used for this research work.Additional informationFundingThe author(s) reported that there is no funding associated with the work featured in this article.

查看原文本刊更多论文

用太赫兹时域光谱法测量金属密封上的多氯三氟乙烯涂层厚度

聚氯三氟乙烯在低温应用中被用作金属密封的涂层材料，以阻止涡轮泵叶轮侧的流体泄漏。通常，通过在基材上喷涂乳液，然后进行热处理，将聚氯三氟乙烯涂层应用于v型密封件上，厚度范围为80至130 μm。采用反射几何太赫兹时域光谱法(一种非接触式、非侵入式无损检测方法)测量了v型密封件上的聚氯三氟乙烯涂层厚度。当来自发射机光导天线的太赫兹脉冲入射到v型密封件上时，它会穿透聚氯三氟乙烯涂层。它从涂层/底涂层界面反射。这里，由于聚三氟乙烯涂层层非常薄，空气-聚三氟乙烯涂层界面和聚三氟乙烯涂层-基膜界面的反射回波在时域上重叠。稀疏反褶积技术将单个反射信号分离出来，从各个接口获取延时信号。从估计的延时值出发，利用太赫兹时域光谱在透射模式下提取的折射率值，计算了涂层的厚度，然后进行了反射测量。所得厚度值与光学显微镜测得的涂层厚度基本一致。关键词:聚氯三氟乙烯;时域光谱;厚度估计;Srirangam Siripothu和他们在PCM/VSSC的团队为样品制备提供了支持。披露声明作者未报告潜在的利益冲突。数据可得性声明支持本研究结果的数据可在合理要求下从通讯作者处获得。本研究工作未使用第三方数据。其他信息资金作者报告说，没有与本文所述工作相关的资金。

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来源期刊

Nondestructive Testing and Evaluation 工程技术-材料科学：表征与测试

CiteScore

4.30

自引率

11.50%

发文量

审稿时长

4 months

期刊介绍： Nondestructive Testing and Evaluation publishes the results of research and development in the underlying theory, novel techniques and applications of nondestructive testing and evaluation in the form of letters, original papers and review articles. Articles concerning both the investigation of physical processes and the development of mechanical processes and techniques are welcomed. Studies of conventional techniques, including radiography, ultrasound, eddy currents, magnetic properties and magnetic particle inspection, thermal imaging and dye penetrant, will be considered in addition to more advanced approaches using, for example, lasers, squid magnetometers, interferometers, synchrotron and neutron beams and Compton scattering. Work on the development of conventional and novel transducers is particularly welcomed. In addition, articles are invited on general aspects of nondestructive testing and evaluation in education, training, validation and links with engineering.