1. bookVolume 19 (2019): Issue 6 (December 2019)
Journal Details
License
Format
Journal
eISSN
1335-8871
First Published
07 Mar 2008
Publication timeframe
6 times per year
Languages
English
access type Open Access

Measurement of Maximum Deviation from Roundness Based on the Inverse Kinematics Principle

Published Online: 21 Nov 2019
Volume & Issue: Volume 19 (2019) - Issue 6 (December 2019)
Page range: 271 - 278
Received: 05 Jun 2019
Accepted: 31 Oct 2019
Journal Details
License
Format
Journal
eISSN
1335-8871
First Published
07 Mar 2008
Publication timeframe
6 times per year
Languages
English
Abstract

The article deals with a special method of measuring the maximum deviation of objects from roundness based on the inverse kinematics principle. The inverse measurement mechanism is based on the immobility of the measuring probes and the object performing all the motions required to measure a dimension. The advantage of this principle is minimization of the temperature change, while the adverse effect in the measurement system is greatly reduced at the same time. The measurement methodology requires a special software evaluation of the data measured. The aim of the given measurement methodology was to establish the maximum roundness deviation that corresponds to the Least Squares Circle (LSC) method. An experiment with three measuring probes was conducted to verify the methodology.

Keywords

[1] El-Khabeery, M.M., Fattouh, M., El-Sheikh, M.N., Hamed, O.A. (1991). On the conventional simple spinning cylindrical aluminum cups. International Journal of Machine Tools and Manufacture, 31 (2), 203-219.10.1016/0890-6955(91)90005-NSearch in Google Scholar

[2] Erenkov, O.Y., Zaev, V.V., Kartelev, D.V., Ashchin, V.A. (2009). Effect of priority deformation of polymer materials on surface layer quality for turned objects. Chemical and Petroleum Engineering, 45 (1-2), 105-108.10.1007/s10556-009-9133-zSearch in Google Scholar

[3] Raya, F.J., Cuesta, E., Martinez-Pellitero, S., Barreiro, J. (2015). Uncertainties on CMMs would be applied to the model of corrections based on Global Metric, Monte Carlo and Neural Network methods. Procedia Engineering, 132, 796-803.10.1016/j.proeng.2015.12.562Search in Google Scholar

[4] Swornowski, P.J. (2014). A new concept of continuous measurement and error correction in a coordinate measuring technique using a PC. Measurement 50, 99-105.10.1016/j.measurement.2013.12.032Search in Google Scholar

[5] Aguado, S., Santolaria, J., Samper, D., Aguilar, J.J. (2016). Forecasting method in multilateration accuracy based on laser tracker measurement. Measurement Science and Technology, 28 (2), 025011.Search in Google Scholar

[6] Deng, Y.F., Guo, J.J., Wang, J.D., Wang, H. (2012). The research and application of multi-point and timesharing measurement method on NC machine tool. In Materials Science Forum, 697-698, 249-252.Search in Google Scholar

[7] International Organization of Standards. (1985). Methods for assessment of departure from roundness - Measurement of variations in radius. ISO 4291.Search in Google Scholar

[8] International Organization of Standards. (1985). Measurement of roundness - Terms, definitions and parameters of roundness. ISO 6318.Search in Google Scholar

[9] Sui, W., Zhang, D. (2012). Four methods for roundness evaluation. Physics Procedia, 24, 2159-2164.10.1016/j.phpro.2012.02.317Search in Google Scholar

[10] Ayub, M.A., Mohamed, A.B., Esa, A.H. (2014). In-line inspection of roundness using machine vision. Procedia Technology, 15, 807-816.10.1016/j.protcy.2014.09.054Search in Google Scholar

[11] Mohamed, A., Esa, A.H., Ayub, M.A. (2011). Non-contact approach to roundness measurement. In 2011 IEEE 7th International Colloquium on Signal Processing and its Applications. IEEE, 117-122.10.1109/CSPA.2011.5759855Search in Google Scholar

[12] Vacharanukul, K., Mekid, S. (2005). In-process dimensional inspection sensors. Measurement, 38 (3), 204-218.10.1016/j.measurement.2005.07.009Search in Google Scholar

[13] Gadelmawla, E.S., Khalifa, W.M., Elewa, I.M. (2008). Measurement and inspection of roundness using computer vision. Mansoura Engineering Journal, 33 (3), M20-M32.Search in Google Scholar

[14] Velasquez, J.D., Nof, S.Y. (2008). Integration of machine-vision inspection information for best-matching distributed components and suppliers. Computers in Industry, 59 (1), 69-81.10.1016/j.compind.2007.06.007Search in Google Scholar

[15] Gapinski, B., Grzelka, M., Rucki, M. (2006). The accuracy analysis of roundness measurement with coordinate measuring machines. In XVIII IMEKO World Congress: Metrology for a Sustainable Development.Search in Google Scholar

[16] Xiuming, L., Zhaoyao, S. (2008). Application of convex hull in assessment of roundness error. International Journal of Machine Tools and Manufacture, 48 (6), 711-714.10.1016/j.ijmachtools.2007.10.019Search in Google Scholar

[17] Mekid, S., Vacharanukul, K. (2011). In-process roundness measurement probe for turned workpieces. Measurement, 44 (4), 762-766.10.1016/j.measurement.2011.01.011Search in Google Scholar

[18] Pribil, J., Pribilova, A., Frollo, I. (2016). Comparison of mechanical vibration and acoustic noise in the open-air MRI. Applied Acoustics, 105, 13-23.10.1016/j.apacoust.2015.11.013Search in Google Scholar

[19] Andris, P., Dermek, T., Frollo, I. (2015). Simplified matching and tuning experimental receive coils for low-field NMR measurements. Measurement, 64, 29-33.10.1016/j.measurement.2014.12.035Search in Google Scholar

[20] Palencar, J., Palencar, R., Duris, S. Pavlasek, P. (2018). Correction of capability index computation based on uncertainty of the check standard in measurement process. Journal of Physics: Conference Series, 1065 (7), 072012.Search in Google Scholar

[21] Witkovsky, V., Wimmer, G., Duris, S. (2015). On statistical methods for common mean and reference confidence intervals in interlaboratory comparisons for temperature. International Journal of Thermophysics, 36 (8), 2150-2171.10.1007/s10765-015-1917-0Search in Google Scholar

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