Root Causes of Brake Caliper Problems as A Corrective Action in Front of LH: A Case Study in Manufacturing Industry

Siti Aisyah; Priskila Timaha Huwae; Fransisca Debora; Choesnul Jaqin; Tosty Maylangi Sitorus

doi:10.22441/ijiem.v5i2.22021

Root Causes of Brake Caliper Problems as A Corrective Action in Front of LH: A Case Study in Manufacturing Industry

Penulis

Siti Aisyah Automotive Industrial Engineering Program, Polytechnic STMI Jakarta, Cempaka Putih Jakarta Pusat 10510
Priskila Timaha Huwae Automotive Industrial Engineering Program, Polytechnic STMI Jakarta, Cempaka Putih Jakarta Pusat 10510
Fransisca Debora Industrial Engineering, Singaperbangsa Karawang University, Jl. H.S.Ronggo Waluyo, Karawang, Jawa Barat 41361
Choesnul Jaqin Industrial Engineering Master Program, Mercu Buana University, Jl. Meruya Selatan No.1, Jakarta 11650
Tosty Maylangi Sitorus Agro-Industrial Engineering, Polytechnic ATI Padang, Padang City, West Sumatra 25586

DOI:

https://doi.org/10.22441/ijiem.v5i2.22021

Kata Kunci:

Quality, RCCA, RCI, Poka yoke, SOP

Abstrak

The industrial sector is the backbone of the country in building the defense sector and economic stability that needs to maintain productivity and be competitive. One of the companies that manufacture automotive components, Mitsubishi, manufactures automotive components and must have zero defect requirements. However, in practice, it was found that 1 (one) unit of CJM had a brake caliper malfunction in the condition that the unit was ready to be sent to the carpool consumer of a company that produces automotive components. The damage is a discrepancy in the diameter of the piston seal, which closes the gap between the piston and the piston housing, allowing for brake fluid leakage, which affects the "zero defect" commitment. Through the application of the Root Cause Corrective Action (RCCA) method with the formation of a Root Cause Investigation (RCI) team, an investigation was carried out to find the root cause of the failure. However, the data processing results of the diameter of the seal thickness obtained have a Cp value of 0.98 and a Cpk of 0.81, which means the process has not been able to work optimally. Therefore, we decided to make some improvements, adding Standard Operating Procedures (SOP), Work Instructions (WI), and making Poka-Yokes as corrective actions in dealing with this problem. After almost 3 months since the investigation began, the data processing results on the piston seal were Cp = 1.86 and Cpk = 1.80.

Unduhan

Data unduhan belum tersedia.

Biografi Penulis

Siti Aisyah, Automotive Industrial Engineering Program, Polytechnic STMI Jakarta, Cempaka Putih Jakarta Pusat 10510

Polytechnic STMI

Referensi

Arnina, P. (2016). Langkah-Langkah Efektif Menyusun SOP. Huta Publisher.

Bachhav, R. M. (2016). Lean Manufacturing Process–A Review. International Journal of Innovative Research in Science and Engineering, 2(01), 99-108.

Bhattacharya, J., Pharmaceutics, M. P., & Hrm, M. B. A. (2014). Root Cause Analysis–A Practice to Understanding and Control the Failure Management in Manufacturing Industry. International Journal of Business and Management Invention, 3(10), 12–20.

Bluvband, Z., & Grabov, P. (2009). Failure analysis of FMEA. 2009 Annual Reliability and Maintainability Symposium, 344–347. DOI. 10.1109/RAMS.2009.4914700

Cheng, S. W., & Thaga, K. (2006). Single variables control charts: an overview. Quality and Reliability Engineering International, 22(7), 811–820. Doi. 10.1002/qre.730

Dahlgaard, J. J., Khanji, G. K., & Kristensen, K. (2008). Fundamentals of total quality management. Routledge. DOI. 10.4324/9780203930021

Ferdousi, F. (2009). An Investigation of Manufacturing Performance Improvement through Lean Production: A Study on Bangladeshi Garment Firms. International Journal of Business and Management, 4(9), 106–116. DOI. 10.5539/ijbm.v4n9p106

Gasperz, V. (2005). Total Quality Management (Terjemahan). Jakarta. PT. Gramedia Pustaka Utama. DOI.

Isniah, S., Hardi Purba, H., & Debora, F. (2020). Plan do check action (PDCA) method: literature review and research issues. Jurnal Sistem Dan Manajemen Industri, 4(1), 72–81. DOI. 10.30656/jsmi.v4i1.2186

Keyser, R. S. (2021). Lean at Home: Applying RCA Techniques to Home Projects. Journal of Applied Research on Industrial Engineering, 8(2), 104–115. DOI. 10.22105/jarie.2021.263716.1234

Kuswardana. (2017). Analisis Penyebab Kecelakaan Kerja Menggunakan Metode RCA ( Fishbone Diagram Method And 5 – Why Analysis ) di PT . PAL Indonesia. Conference on Safety Engineering and Its Application, 141–146.

Okes, D. (2009). Root Cause Analysis. American Society for Quality. Quality Press. Milwaukee, USA.

Oprime, P. C., Lizarelli, F. L., Pimenta, M. L., & Achcar, J. A. (2019). Acceptance X-bar chart considering the sample distribution of capability indices, C ˆ p and C ˆ pk: A practical and economical approach. International Journal of Quality & Reliability Management. DOI. 10.1108/IJQRM-11-2017-0239

Pinto, M. J. A., & Mendes, J. V. (2017). Operational practices of lean manufacturing: Potentiating environmental improvements. Journal of Industrial Engineering and Management, 10(4 Special Issue), 550–580. DOI. 10.3926/jiem.2268

Prabowo, R. F., & Aisyah, S. (2020). Poka-Yoke Method Implementation in Industries: A Systematic. Journal of Industrial Engineering and Management, 1(1), 12-24. DOI. 10.22441/ijiem.v1i1.8803

Purba, H H, & Aisyah, S. (2017). Quality improvement and lean six sigma: Meningkatkan kulitas produk dan kinerja perusahaan menuju zero defect. Expert, Yogyakarta, Indonesia.

Purba, Humiras Hardi, Mukhlisin, & Aisyah, S. (2018). Productivity improvement picking order by appropriate method, value stream mapping analysis, and storage design: A case study in automotive part center. Management and Production Engineering Review, 9(1), 71–81. DOI. 10.24425/119402

S. Wijaya, F. Debora, G. Supriadi, & I. Ramadhan. (2019). A Framework of e-Kanban System for Indonesia Automotive Mixed-Model Production Line. International Journal of Science and Research, 8(6), 2109–2117. DOI. 10.21275/ART20198943

Schulz, G. (2014). The Importance of Effective Root Cause Analysis of Failures in High Reliability Microelectronics Applications: A Case Study. International Symposium on Microelectronics, 2014(1), 493–499. DOI. 10.4071/isom-WA45

Tanner, J. (2020). Agile FRACAS in production manufacturing. Proceedings - Annual Reliability and Maintainability Symposium, 2020 - Janua. DOI. 10.1109/RAMS48030.2020.9153660

Taufik, D. A. (2020). PDCA Cycle Method implementation in Industries: A Systematic Literature Review. IJIEM - Indonesian Journal of Industrial Engineering and Management, 1(3), 157. DOI. 10.22441/ijiem.v1i3.10244

Tomić, B., & Brkić, V. S. (2011). Effective Root Cause Analysis and Corrective Action Process. Journal Of Engineering Management And Competitiveness (Jemc) Mihajlo Pupin, 1(12), 16–20. http://www.tfzr.uns.ac.rs/jemc

Unduhan

PDF (English)

Diterbitkan

2024-11-20

Cara Mengutip

Aisyah S, Huwae PT, Debora F, Jaqin C, Sitorus TM. Root Causes of Brake Caliper Problems as A Corrective Action in Front of LH: A Case Study in Manufacturing Industry. IJIEM [Internet]. 20 November 2024 [dikutip 28 Mei 2026];5(2):508-16. Tersedia pada: https://training-ojs3-publikasi.mercubuana.ac.id/index.php/ijiem/article/view/22021

Unduh Sitasi

Terbitan

Vol 5 No 2: June 2024

Bagian

Articles

Lisensi

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.