Abstract

This study aims to measure the sheeter machine's effectiveness, efficiency, and decline factors. Also, recommendations for improvement are made to counteract the decrease in RSS production efficiency. Overall Equipment Effectiveness (OEE) and Total Equipment Efficiency (TEE) were used to measure the effectiveness and efficiency of the machine. The Failure Method Effect Analyze (FMEA) is used to investigate machine failure, while TPM provides recommendations for improvement. The results showed that the sheeter machine effectiveness value in one year was almost entirely above the international standard at 85%, except for April and May at 72.27% and 80.33%. Furthermore, the highest and lowest TEE value was in February and April with 86.29% and 58.11%, respectively. According to the Six Big Losses calculations, the causes of a decrease in the effectiveness and efficiency of the sheeter machine were breakdown, setup, and adjustment losses, and idling, and minor stoppages. The failures with the highest Risk Priority Number (RPN) based on the FMEA were rusty bearings and halted machines resulting from tucked sheets under the roller. Minimizing Six Big Losses and adopting an autonomous maintenance system were two recommendations based on the TPM concept for increasing the efficacy and efficiency of RSS manufacturing.

Keywords: machine efficiency, maintenance, sheet rubber

Abstrak

Tujuan Penelitian ini adalah untuk mengukur nilai efektivitas, efisiensi dan mengidentifikasi faktor-faktor penyebab dasar penurunan efisiensi produksi pada mesin sheeter. Rekomendasi perbaikan diberikan untuk mengatasi penurunan efisiensi produksi RSS. Overall Equipment Effectiveness (OEE) dan Total Equipment Efficiency (TEE) digunakan untuk mengukur efektivitas dan efisiensi mesin. Analisis penyebab kegagalan mesin dilakukan menggunakan Failure Method Effect Analyze (FMEA), sedangkan rekomendasi perbaikan diberikan berdasarkan konsep TPM. Hasil penelitian menunjukkan bahwa nilai efektivitas mesin sheeter dalam satu tahun hampir keseluruhan berada di atas nilai standar internasional (85%) kecuali pada bulan April (72,27%) dan bulan Mei (80,33%). Nilai TEE pada mesin sheeter tertinggi terjadi pada bulan Februari (86,29%) dan terendah pada bulan April (58,11%). Hasil perhitungan Six Big Losses menunjukkan bahwa penyebab penurunan efektivitas dan efisiensi mesin sheeter adalah breakdown losses, setup and adjusment losses, dan idling and minor stoppages. Kegagalan yang memiliki nilai Risk Priority Number (RPN) tertinggi berdasarkan FMEA adalah bearing yang berkarat dan mesin yang berhenti karena sheet yang terselip di bawah roller. Rekomendasi perbaikan untuk meningkatkan efektivitas dan efisiensi produksi RSS berdasarkan konsep TPM adalah meminimalkan Six Big Losses dan menerapkan sistem pemeliharaan mandiri (autonomous maintenance).

Kata kunci : efisiensi mesin, karet lembaran, perawatan

Ahmad, N., Hossen, J., & Ali, S. M. (2018). Improvement of overall equipment efficiency of ring frame through total productive maintenance: a textile case. The International Journal of Advanced Manufacturing Technology, 94(1–4), 239–256. https://doi.org/10.1007/s00170-017-0783-2

Alvira, D., Helianty, Y., & Prassetiyo, H. (2015). Usulan peningkatan overall equipment effectiveness (OEE) pada mesin tapping manual dengan meminimumkan six big losses. Reka Integra: Jurnal Teknik Industri, 3(3), 240–251.

Chikwendu, O. C., Chima, A. S., & Edith, M. C. (2020). The optimization of overall equipment effectiveness factors in a pharmaceutical company. Heliyon, 6(4), e03796. https://doi.org/10.1016/j.heliyon.2020.e03796

Fakhri, N., Supenti, L., & Prabawo, G. (2019). Overall equipment effectiveness (OEE) analysis to improve the effectiveness of vannamei (Litopenaeus vannamei) shrimp freezing machine performance at PT. XY, Situbondo-East Java. IOP Conference Series: Earth and Environmental Science, 278(1), 012022. https://doi.org/10.1088/1755-1315/278/1/012022

Firmansyah, M. M., Susanty, A., & Puspitasari, D. (2015). Analisis overall equipment effectivenessdan six big losses pada mesin pencelupan benang (Studi kasus PT. Pismatex Textile Industry). Industrial Engineering, 4(4).

Fitriadi, R., & Kuncoro, G. B. (2013). Analisa perbaikan mesin CNC MA-1 dengan menggunakan indikator kinerja overall equipment effectiveness (OEE). Prosiding Seminar Nasional Sains Dan Teknologi 4, 1(1), 26–31. Semarang: Fakultas Teknik. Universitas Wahid Hasyim.

Gupta, A. K., & Garg, R. K. (2012). OEE improvement by TPM implementation: A case study. International Journal of IT, Engineering and Applied Sciences Research, 1(1), 115–124.

Hedman, R., Subramaniyan, M., & Almström, P. (2016). Analysis of Critical Factors for Automatic Measurement of OEE. Procedia CIRP, 57, 128–133. https://doi.org/10.1016/j.procir.2016.11.023

Jiwantoro, A., Argo, B. D., & Nugroho, W. A. (2013). Analisis efektivitas mesin penggiling tebu dengan penerapan total productive. Jurnal Keteknikan Pertanian Tropis Dan Biosistem, 1(2), 18–28.

Maknunah, L. U., Achmadi, F., & Astuti, R. (2016). Penerapan overall equipment effectiveness (OEE) untuk mengevaluasi kinerja mesin-mesin di stasiun giling Pabrik Gula Krebet II Malang. Jurnal Teknologi Industri Pertanian, 26(2), 189–198.

Maknunah, L. U., Astuti, R., & Effendi, M. (2014). Perancangan aplikasi pengukuran overall equipment effectiveness (OEE): Studi kasus di PG Krebet Baru II. Jurnal Teknologi Pertanian, 5(1), 7–14.

Mohammadi, M., Rai, P., & Gupta, S. (2017). Performance evaluation of bucket based excavating, loading and transport (BELT) equipment – an OEE approach. Archives of Mining Sciences, 62(1), 105–120. https://doi.org/10.1515/amsc-2017-0008

Neelakandan, B., & Muralidhara, C. (2018). A review of literature on overall equipment effectiveness (OEE). Journal of Applied Science and Computations, 5(11), 188–200.

NTN Corporation. (2017). Care and Maintenance of Bearings (Revised). Osaka: NTN Corporation.

Pačaiová, H., & Ižaríková, G. (2019). Base principles and practices for implementation of total productive maintenance in automotive industry. Quality Innovation Prosperity, 23(1), 45–59. https://doi.org/10.12776/qip.v23i1.1203

Patil, M. S., & Prasad, P. (2019). Improvement of overall equipment effectiveness of valve stem seal finishing machine. International Research Journal of Engineering and Technology, 6(8), 678–685.

Rahmad, Pratikto, & Wahyudi, S. (2012). Penerapan overall equipment effectiveness (OEE) dalam implementasi total productive maintenance (TPM) (Studi kasus di Pabrik Gula PT. “Y”.). Jurnal Rekayasa Mesin, 3(3), 431–437.

Rajput, H. S., & Jayaswal, P. (2012). A total productive maintenance (TPM) approach to improve overall equipment efficiency. International Journal of Modern Engineering Research, 2(6), 4383–4386.

Sheu, D. D. (2006). Overall input efficiency and total equipment efficiency. IEEE Transactions on Semiconductor Manufacturing, 19(4), 496–501. https://doi.org/10.1109/TSM.2006.884718

Siahaan, G. P. (2011). Penerapan total productive maintenance (TPM) untuk peningkatan efisiensi produksi pada pabrik RSS PT. Perkebunan Nusantara II Kebun Batang Serangan. Department of Industrial Engineering. Faculty of Engineering. Universitas Sumatera Utara. Medan.

Siregar, I., Muchtar, M. A., Rahmat, R. F., Andayani, U., Nasution, T. H., & Sari, R. M. (2018). Method of calculation overall equipment effectiveness in fertilizer factory. IOP Conference Series: Materials Science and Engineering, 308, 012053. https://doi.org/10.1088/1757-899X/308/1/012053

Sunadi, Purba, H. H., & Paulina, E. (2021). Overall equipment effectiveness to increase productivity of injection molding machine: A case study in plastic manufacturing industry. ComTech: Computer, Mathematics and Engineering Applications, 12(1), 53–64. https://doi.org/10.21512/comtech.v12i1.6706

Tsarouhas, P. H. (2019a). Improving operation of the croissant production line through overall equipment effectiveness (OEE). International Journal of Productivity and Performance Management, 68(1), 88–108. https://doi.org/10.1108/IJPPM-02-2018-0060

Tsarouhas, P. H. (2019b). Overall equipment effectiveness (OEE) evaluation for an automated ice cream production line. International Journal of Productivity and Performance Management, 69(5), 1009–1032. https://doi.org/10.1108/IJPPM-03-2019-0126

Valentina, A., Herawati, M. M., & Agus, Y. H. (2020). Pengaruh asam sulfat sebagai bahan koagulan lateks terhadap karakteristik karet dan mutu karet. Jurnal Penelitian Karet, 38(1), 85–94. https://doi.org/10.22302/ppk.jpk.v38i1.639

Wita, P. A. R., & Asri, Z. (2021). Petani karet di Kabupaten Kampar pada tahun 2010-2019: Pasang surut ekonomi dan gaya hidup petani Desa Salo. Kronologi, 3(1), 338–351.

Yumaida. (2011). Analisis Resiko Kegagalan Pemeliharaan Pada Pabrik Pengolahan Pupuk NPK Granular (Studi Kasus: PT. Pupuk Kujang Cikampek). Faculty of Engineering. Universitas Indonesia. Depok.

Yuniawan, D., Ito, T., & Mohamad, E. Bin. (2014). Overall equipment effectiveness estimation for priority improvement in the production line. International Journal of Internet Manufacturing and Services, 3(4), 279–299. https://doi.org/10.1504/IJIMS.2014.070694

Zlatić, M. (2019). TPM - total productive maintenance. Proceedings on Engineering Sciences, 1(2), 581–590. https://doi.org/10.24874/PES01.02.057