Calibration of Dial Indicator Using Calibration Tester with JIS B 7503 Standard
Abstract
The measurement process is the most important part of the production process in the industrial world. Obtaining good measurement results can not be separated from using measuring instruments that are always maintained. Subsequence, the maintenance of calibration procedures must be carried out periodically based on a predetermined time limit. The calibration process is an activity to compare standard quantities between measuring instruments and testers that are in accordance with the measuring instrument and carried out periodically. The implementation of the calibration process often has generates an uneven value where this value is better known as the uncertainty value. This research objective is to determine the uncertainty value of the measuring instrument of a dial indicator using the JIS B 7503 Standard. The calibration can control the quality of the equipment used, and can show whether the tool is feasible or not to be used.
References
[2] ISO/IEC 17025, General requirements for the competence of testing and calibration laboratories.
[3] National Accreditation Body of Indonesia (Komite Akreditasi Nasional-KAN).
[4] Amani, N. & Arief, D.S. (2015). Kalibrasi jangka sorong nonius (vernier calliper) berdasarkan Standar JIS B 7507 di laboratorium pengukuran teknik mesin universitas riau, Jurnal JOM FTEKNIK, 2(2).
[5] Zulfebri & Arief, D.S. (2015). Kalibrasi jangka sorong jam ukur (dial calliper) menggunakan metode standar JIS B 7507 - 1993 di laboratorium pengukuran teknik mesin universitas riau, Jurnal JOM FTEKNIK, 2(2).
[6] Kurnia, A. & Arief, D.S. (2015). Kalibrasi mikrometer sekrup eksternal dengan mengacu pada standar JIS B 7502 - 1994 di laboratorium pengukuran teknik mesin universitas riau, Jurnal JOM FTEKNIK, 2(2).
[7] Taufiq, R. 2006. Spesifikasi, Metrologi & Kontrol Kualitas Geometrik 1. Bandung: ITB.
[8] Taufiq, R. 2006. Spesifikasi, Metrologi & Kontrol Kualitas Geometrik 2. Bandung: ITB.
[9] Arief, D.S., Badri, M., Dalil, M., Reforiandi, A., & Permana, A. (2020). Calibration of vickers hardness test in
pt. tenaris seamless pipe Indonesia jaya cilegon using standar blok, Journal Of Ocean, Mechanical And
Aerospace -Science and Engineering-, 64(3), 81-87. doi:10.36842/jomase.v64i3.203.
[10] Lui, P.K.W., Liou, H.C., Chang, W.C. & Huang, H.C. (2015). Uncertainty evaluation of the calibration of dial indicator calibrators by laser interferometer, NCSLI Measure, 10(4), 20-23.
[11] Hermann, G. & Rudas, I.J. (2016). Form and length measuring equipments and gauges for the manufacturing industry, IEEE 20th Jubilee International Conference on Intelligent Engineering Systems (INES), 81-84.
[12] Hermann, G. (2006). Computerised dial gauge calibration system, IEEE International Conference on Computational Cybernetics, 1-3, doi: 10.1109/ICCCYB.2006.305737.
[13] Upasani, K.A & Patkar, S. (2015). Determining measurement uncertainty parameters for calibration processes, The International Journal of Engineering and Science (IJES), 4(11), 2319-1805.