Analysis of Shape and Number of Blades on Portable Cooling Chip Fan for Metal Drilling Process with Flow Simulation

Authors

  • Agus Sifa Politeknik Negeri Indramayu https://orcid.org/0000-0001-9565-9884
  • Shofi Syahfitri Politeknik Negeri Indramayu
  • Dedi Suwandi Politeknik Negeri Indramayu

DOI:

https://doi.org/10.31884/jamet.v2i1.31

Keywords:

Portable Chip Fan, Drilling, MQL, CFD, Blade

Abstract

In the metal drilling process, tool temperature is an important parameter for optimizing cutting conditions, by limiting tool wear so that surface roughness can increase. The temperature rise that occurs in the metal drilling process is related to the rate, drill speed, and drill diameter, the drill speed which has a significant influence. One of the efforts to reduce the temperature of the drilling process is by using the Minimum Quantitative Lubricant (MQL) method. The MQL method is more effective by utilizing the surrounding air by making a fan that produces cold air. The method of this research is Computational Fluids Dynamic (CFD) simulation using flow simulation, with parameters 3 shapes of the blades, and variations in the number of blades 3,5 and 7. The purpose of this study is to analyze the shape and number of blades on a portable chip fan for metal drilling cooling processes. The CFD simulation results obtained from Model 2 and the number of blades 3 with a minimum temperature of 29.87°C and a maximum temperature of 30.19°C.

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Vol 2 No. 2 2023 Journal of Applied Mechanical Technology (JAMET)

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Published

2023-06-30

How to Cite

[1]
A. Sifa, S. Syahfitri, and D. Suwandi, “Analysis of Shape and Number of Blades on Portable Cooling Chip Fan for Metal Drilling Process with Flow Simulation”, JAMET, vol. 2, no. 1, pp. 19–24, Jun. 2023.

Issue

Vol. 2 No. 1 (2023): Journal of Applied Mechanical Technology (JAMET)

Section

Articles

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Copyright (c) 2023 Journal of Applied Mechanical Technology

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