Application of Measurement System Analysis (MSA) for Assesment of Tire Pressure Monitoring in Coal Mining Trucks
DOI:
https://doi.org/10.22441/ijiem.v5i3.26255Keywords:
MSA, Tire, ANOVA, Repeatability, ReproducibilityAbstract
Tire pressure plays an important role in ensuring safe operation and performance of truck vehicles. Improper tire pressure always leads to tire life, vehicle safety, and performance. This paper discusses the application of measurement system analysis on truck tire pressure in a coal mining company. The study evaluates the measurement system of truck tire pressure. The company aims to extend the life span of its tire by maintaining and monitoring the tire pressure regularly. The tire pressure is measure by a pressure gauge. This study used measurement system analysis (MSA) to analyze the Gage R&R, with 2 tire men and 10 parts measured with 3 repetitions. The MSA results in a Total Gage R&R of 18.16% with a repeatability value of 12.34% and a reproducibility value of 13.32%. The result indicated that the measurement system showed good results for tire measurement applications because the Gage R&R was between 10% to 30%.Downloads
References
(AIAG), A. I. A. G. (2010). Measurement System Analysis (MSA) Fourth Edition (Vol. 4, Issue 1).
Abdulaev, E. K., Makharatkin, P. N., & Pumpur, E. V. (2019). A Priori Ranking and an Analysis of Factors Affecting Tire Wear. IOP Conference Series: Earth and Environmental Science, 378(1), 3–7. https://doi.org/10.1088/1755-1315/378/1/012001
Abhimanyu Yadav. (2016). Measurement Systems Analysis and a Study of Anova Method. International Journal of Research in Engineering and Technology, 05(02), 123–127. https://doi.org/10.15623/ijret.2016.0502022
Cepova, L., Kovacikova, A., Cep, R., Klaput, P., & Mizera, O. (2018). Measurement System Analyses - Gauge Repeatability and Reproducibility Methods. Measurement Science Review, 18(1), 20–27. https://doi.org/10.1515/msr-2018-0004
Deshpande, A., Dhakrao, R., Bhawsar, V., Bhavsar, S., Rayjade, G., & Ranade, P. (2020). Measurement System Scrutiny using Gage R&R: Case Study. International Research Journal of Engineering and Technology, June, 4224–4229. www.irjet.net
Dhawale, R., & Raut, D. N. (2013). Evaluating Measurement Capabilities by Gauge R&R Using ANOVA for Reliability. International Journal of Engineering Research and Applications, 3(3), 726–730. http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.419.6350
Galli, B. J. (2020). Measurement System Analysis and System Thinking in Six Sigma. International Journal of System Dynamics Applications, 9(1), 44–62. https://doi.org/10.4018/ijsda.2020010103
Gerger, A., Gör Atakan GERGER Ege Üniversitesi, Ö., & Meslek Yüksekokulu, E. (2021). Conducting a Gage R & R Study: An Application Example in Automotive Industry. Journal of Economics and Social Research Ekonomi ve Sosyal Araştırmalar Dergisi Conducting a Gage R & R Study: An Application Example in Automotive Industry. https://www.researchgate.net/publication/349625419
Klaput, P., & Plura, J. (2012). Influence of Used Method on The Results of Gage Repeatability and Reproducibility Study. METAL 2012 - Conference Proceedings, 21st International Conference on Metallurgy and Materials, 1756–1761.
Kumar, T. V., G.Ramya, P.Kowsalya, Priya, B. S., & P.Tharani. (2020). SMEs Perception towards Adoption of Measurement System Analysis Strategy : A Case Study in Pump Manufacturing Industry. Materials Science and Engineering, IOP Conference Series, 954. https://doi.org/10.1088/1757-899X/954/1/012006
Lindeque, G. C. (2016). A Critical Investigation into Tire Life on an Iron ore Haulage System. Journal of the Southern African Institute of Mining and Metallurgy, 116(4), 317–322. https://doi.org/10.17159/2411-9717/2016/v116n4a3
Moatari-Kazerouni, A. (2009). Design and Analysis of Gauge R & R Studies : Making Decisions Based on ANOVA Method. World Academy of Science, Engineering and Technology, 52(4), 31–35.
Saikaew, C. (2018). An Implementation of Measurement System Analysis For Assessment of Machine and Part Variations in Turning Operation. Measurement: Journal of the International Measurement Confederation, 118(March 2018), 246–252. https://doi.org/10.1016/j.measurement.2018.01.008
Schmitt, R., & Marcin Bauza. (2012). Measurement system analysis. CIRP Encyclopedia of Production Engineering, 70(9). https://doi.org/10.1002/9781118307502.ch6
Shao, J., & Qian, T. (2015). Measurement system Performance Analysis Using MINITAB. Proceedings of the First International Conference on Information Sciences, Machinery, Materials and Energy, 126(Icismme), 1679–1683. https://doi.org/10.2991/icismme-15.2015.347
Sivaraos, Raguvaran, M. J., Ali, A., Abdullah, M. F., Sivakumar, D., Ali, M., Hambali, A., Salleh, & Umesh, K. (2019). Vestigation of Tire Pressure Drop Phenomenon Using Specially Designed Real-Time Data Mining And Storage System. International Journal of Recent Technology and Engineering, 7(5), 533–537.
Sumasto, F., Nugroho, Y. A., Purwojatmiko, B. H., Wirandi, M., Imansuri, F., & Aisyah, S. (2023). Implementation of Measurement System Analysis to Reduce Measurement Process Failures on Part Reinf BK6. IJIEM - Indonesian Journal of Industrial Engineering and Management, 4(2), 212. https://doi.org/10.22441/ijiem.v4i2.20212
Ted Hessing. (2016). Gage Repeatability and Reproducibility (R&R). Six Sigma Study Guide, 1. https://sixsigmastudyguide.com/repeatability-and-reproducibility-rr/
Zhou, J., Hall, R. A., Fowler, G., & Huntingford, K. (2008). Evaluation of The Effect of Off-The-Road Tire Air Pressure Setting on Tire Performance. International Journal of Mining, Reclamation and Environment, 22(3), 237–244. https://doi.org/10.1080/17480930701679459
Downloads
Published
How to Cite
Issue
Section
License
The copyright to this article is transferred to Universitas Mercu Buana (UMB) if and when the article is accepted for publication. The undersigned hereby transfers any and all rights in and to the paper including without limitation all copyrights to UMB. The undersigned hereby represents and warrants that the paper is original and that he/she is the author of the paper, except for material that is clearly identified as to its original source, with permission notices from the copyright owners where required. The undersigned represents that he/she has the power and authority to make and execute this assignment.
We declare that:
1. This paper has not been published in the same form elsewhere.
2. It will not be submitted anywhere else for publication prior to acceptance/rejection by this Journal.
3. A copyright permission is obtained for materials published elsewhere and which require this permission for reproduction.
Furthermore, I/We hereby transfer the unlimited rights of publication of the above mentioned paper in whole to UMB. The copyright transfer covers the exclusive right to reproduce and distribute the article, including reprints, translations, photographic reproductions, microform, electronic form (offline, online) or any other reproductions of similar nature.
The corresponding author signs for and accepts responsibility for releasing this material on behalf of any and all co-authors. This agreement is to be signed by at least one of the authors who have obtained the assent of the co-author(s) where applicable. After submission of this agreement signed by the corresponding author, changes of authorship or in the order of the authors listed will not be accepted.
Retained Rights/Terms and Conditions
1. Authors retain all proprietary rights in any process, procedure, or article of manufacture described in the Work.
2. Authors may reproduce or authorize others to reproduce the Work or derivative works for the authors personal use or for company use, provided that the source and the UMB copyright notice are indicated, the copies are not used in any way that implies UMB endorsement of a product or service of any employer, and the copies themselves are not offered for sale.
3. Although authors are permitted to re-use all or portions of the Work in other works, this does not include granting third-party requests for reprinting, republishing, or other types of re-use.
