Transforming Industry Through Hydraulic Solutions, Enhancing Productivity Mengubah Industri Melalui Solusi Hidraulik, Meningkatkan Produktivitas

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Published: Mar 17, 2024
DOI: https://doi.org/10.21070/pels.v7i0.1529
Keywords:
Hydraulic System, Injection Molding Machine, System Works

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Ghulam Muhammad Abdu Sari
Universitas Muhammadiyah Sidoarjo
Rachmat Firdaus
Universitas Muhammadiyah Sidoarjo

Abstract

This study investigates the workings of such systems in Indonesia, focusing on the flow and pressurization of oil from reservoirs through pumps to working cylinders. Hydraulic systems are crucial in transforming oil fluid pressure into mechanical work, particularly in injection molding machines. Findings indicate that the pump's ability to convert and transmit mechanical energy effectively is pivotal in enhancing machine efficiency. These insights highlight potential areas for improvement in system design and operation, suggesting that optimizing filtration and pressurization could significantly boost industrial productivity and sustainability.


Highlights:


  • Hydraulic systems in Indonesia studied for oil flow and pressurization.

  • Pump efficiency crucial for enhancing machine productivity.

  • Optimization of filtration and pressurization can boost industrial sustainability.

Keywords: Hydraulic System, Injection Molding Machine, System Works

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How to Cite
[1]
G. M. A. Sari and R. Firdaus, “Transforming Industry Through Hydraulic Solutions, Enhancing Productivity”, PELS, vol. 7, pp. 563-570, Mar. 2024.
Issue
Vol 7 (2024): Proceedings of the 7th Seminar Nasional Sains 2024
Section
Mechanical Engineering
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This work is licensed under a Creative Commons Attribution 4.0 International License.

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References

[1] R. N. Ilmi, D. Mardiyana, and O. Haris, "Analisis Penerapan Preventive Maintenance Terhadap Performa Sistem Hidrolik Mesin Injection Moulding Model Ft 420," J. Permadi Perancangan, Manufaktur, Mater. dan Energi, vol. 4, no. 3, pp. 129–147, 2022. DOI: 10.52005/permadi.v4i3.93.
[2] H. Permana and S. Anwar, "Produksi Proses Komponen Plastik Flip Flop Dengan Mesin Injeksi Molding Type Hidrolik Production Process of Flip Flop Plastic Components with Hydraulic Type Injection Molding," J. Baut dan Manufaktur, vol. 3, no. 2, pp. 2686–5351, 2021.
[3] J. J. Heckman, R. Pinto, and P. A. Savelyev, "Perancangan mesin hidraulik press bearing dengan kapasitas 20 Ton," Angew. Chemie Int. Ed., vol. 6, no. 11, pp. 951–952, 2020.
[4] A. Y. Rahmawati, "Injection Molding," no. July, pp. 1–23, 2020.
[5] M. Al Haramain, R. Effendi, and H. A. Susilo, "Perancangan Silinder Hidrolik Pada Mesin Molding Karet Dengan Kapasitas 25 Ton," J. Mesin Teknol. (SINTEK J.), vol. 11, no. 1, pp. 55–61, 2017.
[6] A. Mathematics, "Root Cause Analysis Kerusakan Pin Toggle Clamp," pp. 1–23, 2016.
[7] M. H. Laksono, I. Ummah, and H. K. Wardana, "Sistem Hidrolik Pada Mesin Injection Moulding Di PT. Preshion Engineering Plastec Surabaya," vol. 1, no. 2, pp. 23–31, 2023.
[8] R. Suhendro, "Analisis Karakteristik Model Sistem Hidraulik Alat Angkat," 2020.
[9] F. Johannaber, "Injection Molding Machines," 4th ed., Munich, Lanser, 2007.