Comparative analysis of the dependence of contourograph measurement accuracy on the angular and speed parameters of the probe

K. Epifantsev; Епифанцев К.

doi:10.22184/1992-4178.2024.240.9.116.119

Comparative analysis of the dependence of contourograph measurement accuracy on the angular and speed parameters of the probe

Authors: Epifantsev K.¹
Affiliations:
1. Санкт-Петербургский государственный университет аэрокосмического приборостроения
Issue: No 9 (2024)
Pages: 116-119
Section: Test and measurement
URL: https://journals.eco-vector.com/1992-4178/article/view/642442
DOI: https://doi.org/10.22184/1992-4178.2024.240.9.116.119
ID: 642442

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Abstract
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About the authors
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Abstract

The article presents the experimental data that enable to study the process of calibrating a contourograph for different experimental conditions and identify the optimal values of the angular and speed parameters of measurements.

Keywords

contourograph, calibration, measurements

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About the authors

K. Epifantsev

Санкт-Петербургский государственный университет аэрокосмического приборостроения

Author for correspondence.
Email: epifancew@gmail.com

кандидат технических наук, доцент

Russian Federation, Санкт-Петербург

References

ООО «СУПРР» Электронный ресурс. URL https://saprd.ru/grsi/58193-14/ Дата обращения 19.09.2024.
Гущина Е.А., Епифанцев К.В., Ефремов Н.Ю. Цифровая метрология: учебно-методическое пособие. СПб: ГУАП, 2022. 104 с.
Котова Е.К. Исследование методики измерений и калибровки цифрового контурографа. ВКР. СПб: ГУАП. 2023. 48 с.
Контурографы. Электронный ресурс. URL https://forttool.ru/catalog/izmerenija-formy-i-sherohovatosti-mitutoyo/konturografy-contracer-cv_3200-i-cv_4500-mitutoyo-seriya-218/ Дата обращения 19.09.2024.

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2. Fig. 1. Difference between the values obtained during calibration and the nominal ones

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3. Fig. 2. The difference between the values measured by the micrometer and the contour graph at different speeds of the probe movement

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4. Fig. 3. Measuring a part lying horizontally (a) and at an angle (b)

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5. Fig. 4. Difference in values measured in one and in different positions of the part

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6. Fig. 5. An example of measuring the same contour without tilting and with tilting of the part: a – separately located contours after taking dimensions; b – superposition of contours

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