Details

Title

An investigation on using the falling mass technique for dynamic force calibrations

Journal title

Metrology and Measurement Systems

Yearbook

2021

Affiliation

Gelany, Shaker A. : National Institute of Standards (NIS), Tersa St, El-Haram, PO Box 136, Code 12211, Giza, Egypt ; Mahmoud, Gouda M. : National Institute of Standards (NIS), Tersa St, El-Haram, PO Box 136, Code 12211, Giza, Egypt

Authors

Keywords

calibration ; dynamic calibration ; impact force ; falling weight

Divisions of PAS

Nauki Techniczne

Coverage

455-463

Publisher

Polish Academy of Sciences Committee on Metrology and Scientific Instrumentation

Bibliography

[1] Fujii, Y., Isobe, D., Saito, S., Fujimoto, H., & Miki, Y. (2000). A method for determining the impact force in crash testing. Mechanical Systems and Signal Processing, 14(6), 959–965. https://doi.org/10.1006/mssp.1999.1272
[2] Fujii, Y. (2003). A method for calibrating force transducers against oscillation force. Measurement Science and Technology, 14(8), 1259–1264. https://doi.org/10.1088/0957-0233/14/8/310
[3] Hjelmgren, J. (2002). Dynamic Measurement of Force – A Literature Survey (SP Report 2002:34). SP Swedish National Testing and Research Institute SP Measurement Technology.
[4] Jun, Y., Yiqing, C., Xuan, H., & Xiao, Y. (2017). Impulse force calibration with dropped weight and laser vibrometer. IMEKO 23rd TC3, 13th TC5 and 4th TC22 International Conference, Finland, 19. https://www.imeko.org/publications/tc3-2017/IMEKO-TC3-2017-030.pdf
[5] Kobusch, M., Link, A., Buss, A., & Bruns, T. (2007). Comparison of shock and sine force calibration methods. IMEKO 20th TC3, 3rd TC16 and 1st TC22 International Conference, Maxico. https://www.imeko.org/publications/tc3-2007/IMEKO-TC3-2007-007u.pdf
[6] Satria, E., Takita, A., Nasbey, H., Prayogi, I. A., Hendro, H., Djamal, M., & Fujii, Y. (2018). New technique for dynamic calibration of a force transducer using a drop ball tester. Measurement Science and Technology, 29(12). https://doi.org/10.1088/1361-6501/aaeb71
[7] Schlegel, C., Kieckenap, G., Glöckner, B., Buß, A., & Kumme, R. (2012). Traceable periodic force calibration. Metrologia, 49(3), 224–235. https://doi.org/10.1088/0026-1394/49/3/224
[8] Sivaselvan, M. V., Reinhorn, A. M., Shao, X., & Weinreber, S. (2008). Dynamic force control with hydraulic actuators using added compliance and displacement compensation. Earthquake Engineering and Structural Dynamics, 37(15), 1785–1800. https://doi.org/10.1002/eqe.837
[9] Stanford, A. L., & Tanner, J. M. (1985). Work, Power, and Energy. In Physics for Students of Science and Engineering (pp. 109–144). Elsevier Inc. https://doi.org/10.1016/b978-0-12-663380-1.50008-2
[10] Vlajic, N., & Chijioke, A. (2017). Traceable calibration and demonstration of a portable dynamic force transfer standard. Metrologia, 54(4), S83–S98. https://doi.org/10.1088/1681-7575/aa75da
[11] Yang, Y., Zhao, Y., & Kang, D. (2016). Integration on acceleration signals by adjusting with envelopes. Journal of Measurements in Engineering, 4(2), 117–121. https://www.jvejournals.com/ article/16965/pdf
[12] Zhang, L., & Kumme, R. (2003). Investigation of interferometric methods for dynamic force measurement. In XVII IMEKO World Congress, Metrology in the 3rd Millennium, Croatia, 315–318.
[13] Zhang, L.,Wang, Y., & Zhang, L. (2010). Investigation of calibrating force transducer using sinusoidal force. AIP Conference Proceedings, 1253, 395–401. https://doi.org/10.1063/1.3455481

Date

2021.09.06

Type

Article

Identifier

DOI: 10.24425/mms.2021.137127
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