Meminimasi Reject Produk Dengan Kapabilitas Proses Menggunakan Pendekatan Lean Six Sigma

Hayu Kartika, Novera Elisa Triana, Candra Setia Bakti

Abstract


The challenges for manufacturing companies are currently getting bigger, now they are not only facing competition but companies are required to be able to survive the pandemic situation that has occurred throughout the world, including Indonesia. The purpose of this study was to minimize the number of rejects and increase the sigma value of 1 Kg cans of paint in accordance with the Straight Pass Ratio Increase (SPRI) standard of 99.3% with an acceptable percentage of 0.7% Reject. The actual condition of the reject percentage of 1kg paint cans is 6.4%, this is still far from the SPRI standard. Therefore, this research will make improvements, using the Lean Six Sigma concept using the DMAIC method in the repair process stage. The results of the study, obtained 5 types of reject that occur in the production process. In this process there are 4 factors that cause rejects, namely human factors, machines, methods and materials. The sigma value before repair was 3.7 and the cumulative process capability value was 0.062, this is still far from the specification limits that consumers expect. The improvements that have been made in this research are: implementing 5S on the production floor, 5S training and dissemination of SOPs for workers and implementing 5S as a standard operating procedure. After implementing the improvements, there was a decrease in rejects of 88.6%, an increase in the sigma value of 4.5 with a reject percentage of 0.69%. These results have reached the SPRI standards set by the company

Keywords


DMAIC; Lean Six Sigma; Process Capability; Reject

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References


Afif, A., & Purwaningsih, R. (2018). Analisis Waste Pada Industri Mebel Dengan Menggunakan Pendekatan Lean Manufacturing Studi Kasus: CV. Jati Mas Semarang. J@Ti Undip : Jurnal Teknik Industri, 6(4), 1–9. https://doi.org/https://ejournal3.undip.ac.id/index.php/ieoj/article/view/18331

Ahmed, N. G. S., Abohashima, H. S., & Aly, M. F. (2018). Defect reduction using Six Sigma methodology in home appliance company: A case study. Proceedings of the International Conference on Industrial Engineering and Operations Management, 2018(SEP), 1349–1358.

Albassam, M., & Aslam, M. (2022). Product evaluation using uncertainty-based process capability index. Ain Shams Engineering Journal, 101947, 1–5. https://doi.org/10.1016/j.asej.2022.101947

Costa, J. P., Lopes, I. S., & Brito, J. P. (2020). Six sigma application for quality improvement of the pin insertion process. 29th International Conference on Flexible Automation and Intelligent Manufacturing, 38(2019), 1592–1599. https://doi.org/10.1016/j.promfg.2020.01.126

Dillinger, F., Tropschuh, B., Dervis, M. Y., & Reinhart, G. (2022). A Systematic Approach to Identify the Interdependencies of Lean Production and Industry 4.0 Elements. Procedia CIRP, 112, 85–90. https://doi.org/10.1016/j.procir.2022.09.041

Guleria, P., Pathania, A., Bhatti, H., Rojhe, K., & Mahto, D. (2021). Leveraging Lean Six Sigma: Reducing defects and rejections in filter manufacturing industry. Materials Today: Proceedings, 46(17), 8532–8539. https://doi.org/10.1016/j.matpr.2021.03.535

Hendra, Setiawan, I., Hernadewita, & Hermiyetti. (2021). Evaluation of Product Quality Improvement Against Waste in the Electronic Musical Instrument Industry. Jurnal Ilmiah Teknik Elektro Komputer Dan Informatika, 7(3), 402–411. https://doi.org/10.26555/jiteki.v7i3.21904

Hernadewita, H., Setiawan, I., & Hendra, H. (2022). Enhance quality improvement through lean six sigma in division Side Board Clavinova Piano’s. International Journal of Production Management and Engineering, 10(2), 173–181. https://doi.org/10.4995/ijpme.2022.16140

Ibrahim, I., Arifin, D., & Khairunnisa, A. (2020). Analisis Pengendalian Kualitas Menggunakan Metode Six Sigma Dengan Tahapan DMAIC Untuk Mengurangi Jumlah Cacat Pada Produk Vibrating Roller Compactor Di PT. Sakai Indonesia. Jurnal KaLIBRASI - Karya Lintas Ilmu Bidang Rekayasa Arsitektur, Sipil, Industri., 3(1), 18–36. https://doi.org/10.37721/kal.v3i1.639

Irwanto, A., Arifin, D., & Arifin, M. M. (2020). Peningkatan Kualitas Produk Gearbox Dengan Pendekatan DMAIC Six Sigma Pada PT. XYZ. Jurnal KaLIBRASI-Karya Lintas Ilmu Bidang Rekayasa Arsitektur Sipil Industri, 3(1), 1–17. https://doi.org/10.37721/kalibrasi.v3i1.638

Joshi, A., Benitez, J., Huygh, T., Ruiz, L., & De Haes, S. (2021). Impact of IT governance process capability on business performance: Theory and empirical evidence. Decision Support Systems, 157(September), 113668. https://doi.org/10.1016/j.dss.2021.113668

Kartika, H. (2020). Penerapan Lean Kaizen untuk Meningkatkan Produktivitas Line Painting pada Bagian Produksi Automotive dengan Metode PDCA. Jurnal Sistem Teknik Industri (JSTI), 22(1), 22–32. https://doi.org/10.32734/jsti.v22i1.3251

Kartika, H. (2021). Reducing Waste In Plastic Seed Cleaning Process in Injection Machine with Design of Experiment Method. American Journal of Engineering Research, 10(5), 143–150.

Nandakumar, N., Saleeshya, P. G., & Harikumar, P. (2020). Bottleneck Identification and Process Improvement by Lean Six Sigma DMAIC Methodology. Materials Today: Proceedings, 24, 1217–1224. https://doi.org/10.1016/j.matpr.2020.04.436

Palange, A., & Dhatrak, P. (2021). Lean manufacturing a vital tool to enhance productivity in manufacturing. Materials Today: Proceedings, 46, 729–736. https://doi.org/10.1016/j.matpr.2020.12.193

Setiawan, I., Purba, H. H., & Debora, F. (2020). A systematic literature review of implementation six sigma in manufacturing industries. Operations Excellence: Journal of Applied Industrial Engineering, 12(3), 319. https://doi.org/10.22441/oe.2020.v12.i3.005

Setiawan, I., & Setiawan. (2020). Defect reduction of roof panel part in the export delivery process using the DMAIC method: a case study. Jurnal Sistem Dan Manajemen Industri, 4(2), 108–116. https://doi.org/10.30656/jsmi.v4i2.2775

Silvestri, L., Gallo, T., & Silvestri, C. (2022). Which tools are needed to implement Lean Production in an Industry 4.0 environment? A literature review. Procedia Computer Science, 200(2019), 1766–1777. https://doi.org/10.1016/j.procs.2022.01.377

Stauder, J., Buchholz, S., Klocke, F., & Mattfeld, P. (2014). A new framework to evaluate the process capability of production technologies during production ramp-up. Procedia CIRP, 20(C), 126–131. https://doi.org/10.1016/j.procir.2014.05.043

Titmarsh, R., Assad, F., & Harrison, R. (2020). Contributions of lean six sigma to sustainable manufacturing requirements: An industry 4.0 perspective. Procedia CIRP, 90, 589–593. https://doi.org/10.1016/j.procir.2020.02.044




DOI: http://dx.doi.org/10.22441/oe.2022.v14.i3.059

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