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Abstract: The analysis of the theoretical method error was conducted for on-machine measurements of roundness profiles based on the assessment of radial variations. The derived mathematical relationships were represented graphically. The absolute and relative theoretical method errors were determined for the assumed initial conditions. Planned further research activities are given.
B I B L I O G R A F I A1. ISO 12181-1,2:2011 - Geometrical Product Specifications - Roundness.
2. Humienny, Z., "State of art in standardization in GPS area CIRP", Journal of Manufacturing Science and Technology, vol. 2, 1, 2009, p.1-7
3. Z. Humienny et al., Geometrical Product Specifications - Course for Technical Universities, Edition of Warsaw University of Technology, Warszawa, Bielsko-Biała, Erlangen, Huddersfield, Tallin, Wien, 2001.
4. Horikawa, O.& Maruyama, N.& Shimada, M., "A low cost, high accuracy roundness measuring system", Precision Engineering, vol. 25, 3, 2001, p.200-205
5. Gao, W.& Kiyono, S.& Sugawara, T., "High-accuracy roundness measurement by a new error separation method", Precision Engineering, vol. 21, 2-3, 1997, p.123-133
6. Gleason, E.& Schwenke, H., "A spindleless instrument for the roundness measurement of precision spheres", Precision Engineering, vol. 22, 1, 1998, p.37-42
7. Okuyama, E.& Goho, K.& Mitsui, K., "New analytical method for V-block three-point method", Precision Engineering, vol. 27, 3, 2003, p.234-244
8. Adamczak, S.& Janecki, D.& Stepien, K., "Cylindricity measurement by the V-block method - theoretical and practical problems", Measurement, vol. 44, 1, 2011, p.164-173
9. Stepien, K.& Janecki, D.& Adamczak, S., "Investigating the influence of selected factors on results of V-block cylindricity measurements", Measurement, vol. 44, 4, 2011, p.767-777
10. Mekid, S.& Vacharanukul, K., "In-process out-of-roundness measurement probe for turned workpieces", Measurement, vol. 44, 4, 2011, p.762-766
11. Gao, W.& Kiyono, S.& Nomura, T., "A new multiprobe method of roundness measurements", Precision Engineering, vol. 19, 1, 1996, p.37-45
12. Zhang, G.X.& Wang, R.K., "Four-point method of roundness and spindle error measurements", CIRP Annals - Manufacturing Technology, vol. 42, 1, 1993, p.593-596
13. Weckenmann, A.& Estler, T.& Peggs, G.& McMurtry, D., "Probing systems in dimensional metrology", CIRP Annals - Manufacturing Technology, vol. 53, 2, 2004, p.657-684
14. Lei, Xianqing& Zhang, Chunyang& Xue, Yujun& Li, Jishun, "Roundness error evaluation algorithm based on polar coordinate transform", Measurement, vol. 44, 2, 2011, p.345-350
15. Gadelmawla, E.S., "Simple and efficient algorithms for roundness evaluation from the coordinate measurement data", Measurement, vol. 43, 2, 2010, p.223-235
16. Rossi, A.& Antonetti, M.& Barloscio, M.& Lanzetta, M., "Fast genetic algorithm for roundness evaluation by the minimum zone tolerance (MZT) method", Measurement, vol. 44, 7, 2011, p.1243-1252
17. Schmitt, R.& Doerner, D.& Pfeifer, T., "Measurement technology for the machine-integrated determination of form deviations in optical surfaces", CIRP Annals - Manufacturing Technology, vol. 55, 1, 2006, p.559-562
18. Halkaci, H.S.& Mavi, Ö.& Yigit, O., "Evaluation of form error at semi-spherical tools by use of image processing", Measurement, vol. 40, 9-10, 2007, p.860-867
19. Adamczak, S.& Orzechowski, T.& Stańczyk, T.L., The infrared measurement of form deviations of machine parts in motion Measurement, vol. 40, 1, 2007, p.28-35
20. Adamczak, S.& Janusiewicz, A.& Makieła, W.& Stepien, K., "Statistical validation of the method for measuring radius variations of components on the machine tool", Metrology and Measurement Systems, vol. 18, 1, 2011, p.35-46