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Measurement Techniques

Erschienen in:

03.12.2019

Analysis of Techniques for Verification of Coating Thickness Gauges

verfasst von: V. S. Sekatskii, O. A. Gavrilova, N. V. Merzlikina, V. N. Morgun

Erschienen in: Measurement Techniques | Ausgabe 9/2019

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Abstract

An analysis of the structure and content of verification technique MP 002.D4-14, extends to coating thickness gauges TM-2, TM-3, TM-4, and TM-4T, technique MP 159-261-2016 for verification of SaluTrjn coating thickness gauges, and a technique for verification of coating thickness gauges regulated by GOST 8.502–84 is performed. It is shown that the first two techniques do not take into account the random component of the error, while the third technique does take into account the random component but not correctly. These factors all lead to a high probability of a wrong identification of a model of a thickness gauge that is, in reality, defective to be, instead, a working model or, on the other hand working devices may be incorrectly identified as being defective. To increase the reliability of the results of a verification of coating thickness gauges, recommendations that suggest incorporating them into the content of a verification technique regulated by GOST 8.502–84 are proposed.

Vorheriger Artikel Comparative Evaluation of the Accuracy and Robustness of Various Information Processing Algorithms from Tripled Measuring Channels

Nächster Artikel Nonparametric Estimation of the Quadratic Functional of a Multimodal Probability Density

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V. A. Syas’ko, Electromagnetic Methods and Devices for Monitoring the Thickness of Coatings and Walls of Articles: Auth. Abstr. Doct. Dissert. in Techn. Sciences, St. Petersburg (2013).

A. E. Ivkin, Current Flow Methods of Measurement of the Thickness of Nonferromagnetic Electrically Conducting Coatings on Nonferromagnetic Electroconducting Bases: Auth. Abstr. Cand. Dissert. in Techn. Sciences, St. Petersburg (2013).

M. L. Babadzhanova, Development of the Investigation of Measures of Coating Thickness for Verification of Magnetic Thickness Gauges: Auth. Abstr. Cand. Dissert. in Techn. Sciences, Moscow (2004).

L. S. Babadzhanova and M. L. Babadzhanova, Metrological Assurance of Measurements of the Thickness of Coatings. Theory and Application, Izd. Standartov, Moscow (2004).

V. S. Sekatskii, N. V. Merzlikina, and V. N. Morgun, “Comparison of quality indicators to the technical characteristics of coating thickness gauges,” Mezhdunar. Nauch.-Issl. Zh., No. 2–3 (56), 132–135 (2017).

O. A. Gavrilova, M. I. Soboleva, and V. S. Sekatskii, “Comparative analysis of the thickness of coatings and range of measurements by means of magnetic and current flow thickness gauges,” in: Product Quality: Control, Management, 768 Increase in Product Quality, Planning: Proc. 5th Int. Youth Sci. Pract. Conf., Southwestern State Univ., Univ. Kniga, Kursk (2018), Vol. 1, pp. 164–168.

V. S. Sekatskii, O. A. Gavrilova, N. V. Merzlikina, et al., “Two-point calibration of coating thickness gauges: what needs to be considered to improve measurement accuracy,” in: IOP Conf. Ser.: Mater. Sci. Eng., 537, 1–4 (2019).

Titel: Analysis of Techniques for Verification of Coating Thickness Gauges
verfasst von: V. S. Sekatskii
O. A. Gavrilova
N. V. Merzlikina
V. N. Morgun
Publikationsdatum: 03.12.2019
Verlag: Springer US
Erschienen in: Measurement Techniques / Ausgabe 9/2019
Print ISSN: 0543-1972
Elektronische ISSN: 1573-8906
DOI: https://doi.org/10.1007/s11018-019-01692-0

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