We propose a procedure for the evaluation of functional parameters of the three-dimensional structure of surface roughness by using the Mathcad software. The results of computation of these functional parameters for the working surface of the end gauge-block are presented.
Similar content being viewed by others
References
GOST R ISO 25178-2–2014, Geometric Product Specifications (GPS). Surface Texture: Areal. Part 2. Terms, Definitions, and Surface Texture Parameters (2014).
ISO 25178-2:2012, Geometric Product Specifications (GPS). Surface Texture: Areal. Part 2. Terms, Definitions, and Surface Texture Parameters (2012).
B. N. Markov and P. N. Emel’yanov, “Foreign practice of standardization of the parameters of 3D topography of the surface roughness,” Vestn. MGTU Stankin, No. 4(35), 95–100 (2015).
B. N. Markov and A. V. Shulepov, “Algorithms of the robust filtering of roughness profiles,” Izmer. Tekhn., No. 7, 4–7 (2015).
B. N. Markov, O. N. Melikova, and A. V. Shulepov, “Algorithm of the construction of a morphological disk filter for the analysis of surface roughness,” Izmer. Tekhn., No. 5, 30–33 (2017).
A. N. Tabenkin, S. B. Tarasov, and S. N. Stepanov, Roughness, Waviness, Profile. International Experience, Izd. Politekhn. Univ., St. Petersburg (2007).
S. E. Ped’ and P. V. Druzhinin, “Automation of measurements of the parameters of roughness,” Izmer. Tekhn., No. 7, 18–21 (2015).
D. A. Masterenko, P. N. Emel’yanov, M. G. Koval’skii, et al., “Development of a device aimed at measuring the deviations of shape and roughness of the surface of especially precise articles,” Izmer. Tekhn., No. 3, 24–28 (2014).
V. I. Teleshevskii and V. A. Sokolov, “Automatic correction of the volume geometric errors of measuring and technological systems with programmed control,” Izmer. Tekhn., No. 7, 14–17 (2015).
S. N. Grigor’ev, V. I. Teleshevskii, A. G. Andreev, et al., “Metrological certification of laser microscopes based on the principles of modulation interferometry with controlled phase shift,” Vestn. MGTU Stankin, No. 3(34), 67–75 (2015).
S. N. Grigor’ev, V. I. Teleshevskii, A. G. Andreev, et al., “On the problem of construction of precision machines for manufacturing products with nanometer accuracy,” Vestn. MGTU Stankin, No. 3(34), 9–14 (2015).
I. V. Latonov and A. V. Shulepov, “A method for the contactless assessment of surface roughness by its digital image formed by the optical system of a measuring microscope,” Vestn. MGTU Stankin, No. 1(24), 141–145 (2013).
A. V. Shulepov, S. N. Gerasimov, I. E. Kholin, et al., “Development of a system for the processing of images of a measuring complex intended for the adjustment of tools in machines with numerical programmed control,” Vestn. MGTU Stankin, No. 4(35), 89–94 (2015).
D. A. Masterenko and V. I. Teleshevskii, “Specific features of the digital processing of the data of measurements for high-precision linear and angular measurements,” Vestn. MGTU Stankin, No. 12, 11–14 (2016).
S. G. Konov, A. A. Khokholikov, and A. A. Gololobova, “Application of structured light for the photogrammetric method of measurements of the surfaces of complex shape,” Vestn. MGTU Stankin, No. 7, 21–23 (2015).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Izmeritel’naya Tekhnika, No. 2, pp. 23–27, February, 2018.
Rights and permissions
About this article
Cite this article
Markov, B.N., Emel’yanov, P.N., Glubokov, A.V. et al. A Procedure for the Evaluation of Functional Parameters of the Three-Dimensional Structure of Surface Roughness Specified by the ISO Standards. Meas Tech 61, 120–126 (2018). https://doi.org/10.1007/s11018-018-1397-2
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11018-018-1397-2