Research Article Open Access

Uncertainty and its Impact on the Quality of Measurement

Martin Halaj1 and Adel Elahdi M. Yahya2
  • 1 Slovak Institute of Metrology, Slovakia
  • 2 Slovak University of Technology in Bratislava, Slovakia

Abstract

The imposition of practice, the current world, the laboratory measurement, calibration should be approved by points of credit to national or international and should be compatible with the requirements specification (ISO 17025) for the adoption of efficient laboratories. Those requirements were included the testing process or scale limits to doubt that mentioned in the measurement certificate, which recognizes the customer to achieve quality and efficiency in the process of measurement. In this study we would theoretically try to clarify, indicate what the uncertainty in the measurement, standard types of uncertainty and how to calculate the budget of uncertainty as we should show some examples of how the scientific calculation of the budget challenge with some measure the lengths of the laboratory. After analyzing the results we had found during the measurement using CMM, we had found that the value of non-statistical uncertainty in the measurement type (b) piece length of one meter was ±1.9257 µm. and when using the configuration measuring device, we had gotten the value of the extended standard combined uncertainty ±2.030 µm when measured the screws value of 1.2707 mm. When used the configuration measuring device, we had gotten the value of the extended standard combined uncertainty ±2.030 µm when measuring the screws value of 1.2707 mm. We concluded that the impact of uncertainty on the measured results a high fineness degree and less impact on the smoothness of a piece with low fineness, careful calibration of measuring instrument Careful calibration of measuring instrument and equipment by measurement standard is of the utmost importance and equipment by measurement standard is of the utmost importance and laboratories must calculate the uncertainty budget as a part of measurement evaluation to provide high quality measurement results.

American Journal of Engineering and Applied Sciences
Volume 5 No. 2, 2012, 114-118

DOI: https://doi.org/10.3844/ajeassp.2012.114.118

Submitted On: 14 May 2012 Published On: 4 July 2012

How to Cite: Halaj, M. & Yahya, A. E. M. (2012). Uncertainty and its Impact on the Quality of Measurement. American Journal of Engineering and Applied Sciences, 5(2), 114-118. https://doi.org/10.3844/ajeassp.2012.114.118

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Keywords

  • Coordinate Measuring Machine (CMM)
  • Measurement Certificate
  • Important Concepts
  • Good Quality Measurements
  • Industrial Standardization
  • Required Accuracy