Abstract
Improved zirconia-dolerite ball plate is produced and calibrated depicting higher compactness, higher flexural strength, less weight with possibility of manual movement, enabling maximum parameter evaluation with respect to measuring volume periodic and interim checks at considerable lesser time. The manufactured ball plate shows considerable stability even at higher operating temperature of 24 °C with a maximum deviation of 4.1 µm with an average stability of 1.503 µm within the distinct-placed zirconia balls.
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References
Hocken RJ, Pereira PH (2011) Coordinate measuring machine and systems, 2nd edn. CRC Press, Boca Raton
Shen Y, Moon S (1997) Mapping of probe pretravel in dimensional measurements using neural networks computational technique. Comput Ind 34:295–306
Parkinson S, Longstaff AP, Crampton A, Fletcher S, Allen G, Myers A (2011) Representing the process of machine tool calibration in first-order-logic. In: Proceedings of the 17th international conference on automation and computing, Chinese Automation and Computing Society, Huddersfield, UK
Furutani Ryoshu, Shimojima Ken, Takamasu Kiyoshi (2003) Kinematical calibration of articulated CMM using multiple simple artefacts, XVII IMEKO world congress metrology in the 3rd Millenium, June 22–27. Dubrovnik, Croatia
Ibaraki Soichi, Hata Takafumi (2010) A new formulation of laser step diagonal measurement-three-dimension case. Precis Eng 34:516–525
Beaman Jonathan, Morse Edward (2010) Experimental evaluation of software estimates of task specific measurement uncertainty for CMMs. Precis Eng 34:28–33
Bringmann B, Kung A (2005) A measuring artefact for true 3D machine testing and calibration. CIRP Ann Manuf Technol 54:471–474
Liebrich T, Bringmann B, Knapp W (2009) Calibration of 3D-ball plate. Precis Eng 339:1–6
Ramu P, Yague JA, Hocken RJ, Miller J (2011) Development of parametric model and virtual machine to estimate task specific measurement uncertainty for a five-axis multi-sensor coordinate measuring machine. Precis Eng 35:431–439
Kruth Jean-Pierre, Vanherck Paul, Van den Bergh Christope, Schaht Benny (2002) Interaction between workpiece and CMM during geometrical quality control in non-standard thermal conditions. Precision Engineering 26:93–98
Kulkarni VA, Ahuja BB, Mulay AV (2015) Pooled error mapping of probe type coordinate measuring machine. Int J Sci Eng Res 76:242–245
Kulkarni VA, Ahuja BB (2015) Statistical performance analysis of zirconia-dolerite ball plate for dimensional stability. Int J Innov Technol Explor Eng 4:34–37
Kulkarni VA, Ahuja BB (2015) Autocorrelation of zirconia-dolerite ball plate artifact. Int J Mech Eng Res 3:1–4
Kulkarni, VA, Ahuja, BB (2015) Test specific uncertainty analysis of zirconia-dolerite ball plate by Monte Carlo simulation. MAPAN—J Metrol Soc, pp 1–8. Springer, India
Acknowledgements
Authors would like to thank, Savitribai Phule Pune University for providing research grant to carry out this research work as per Fin/Bill/2013–2014/1751. Also, to help improving quality of framework presented in paper, authors would like to thank anonymous reviewers.
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Kulkarni, V.A., Ahuja, B.B. (2020). Design and Development of Zirconia-Dolerite Ball Plate for Error Mapping of Probe-Type Coordinate Measuring Machine. In: Kumar, H., Jain, P. (eds) Recent Advances in Mechanical Engineering. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-15-1071-7_27
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DOI: https://doi.org/10.1007/978-981-15-1071-7_27
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