Manufacturing of Cutting Saw Machine for Aluminum

Authors

  • Anhar Khalid Politeknik Negeri Banjarmasin
  • Akbar Ela Heka Politeknik Negeri Banjarmasin

DOI:

https://doi.org/10.59890/ijist.v2i11.2704

Keywords:

Cutting Saw, Aluminum, Machine

Abstract

Aluminum is a metal material that is widely used in various industrial sectors, such as automotive and construction, because of its lightweight and corrosion-resistant properties. However, aluminum cutting often faces technical challenges, such as overheating that can affect the quality of the piece. The research aims to design and build a prototype of a cutting saw machine specifically designed for aluminum materials, with a focus on efficiency, low cost, and ergonomics. The research uses an engineering experiment approach with the stages of CAD-assisted design, component manufacturing, and performance testing. Prototypes are tested to evaluate cutting speed, operational stability, and energy efficiency. The results show that the machine is able to cut aluminum at a speed of 86.13 mm/min, high energy efficiency, and adequate stability. This study fills the gap of previous research that focused more on heavy metal cutting machines, such as steel. These findings make a significant contribution to aluminum processing technology, especially for small and medium-sized industries. This study recommends the development of automation systems and the use of alternative materials to improve engine performance.

References

Budiyanto, M. A., & Safriana, E. (n.d.). Design and Development of Aluminum Cutting Machine. Journal of Mechanical Engineering, 16(2), 112–120. https://jurnal.polines.ac.id/index.php/rekayasa

Choi, S., Lee, S. K., & Kim, H. (2018). Optimal Cutting Parameters for Aluminum Material in High-Speed Cutting Operations. Journal of Manufacturing Processes, 34, 523–532.

Fadilah, N., & Azman, N. (2021). Development of Tungsten Carbide Saw Blades for Cutting Aluminum Alloys. International Journal of Advanced Manufacturing Technology, 60(5–6), 1371–1378.

Firmansyah, R., & al., et. (2019). Design and Testing of Aluminum Cutting Machines with Integrated Methods. Journal of Mechanical Engineering, 17(2), 45–56. https://doi.org/https://doi.org/10.xxxx

Haryani, K., & Handayani, N. A. (n.d.). The Influence of Cutting Machine Frame Structure Design on Operator Performance and Safety. Journal of Mechanical Engineering Engineering, 14(3), 89–99. https://eprints.ums.ac.id

Iskandar, H., & Damanik, D. (n.d.). Optimization of Saw Blade Rotation Speed on Aluminum Cutting Machines for Energy Efficiency. Journal of Technology and Innovation, 18(2), 56–65. https://jurnal.mercubuana.ac.id

Lehtinen, E., & Kallio, K. (2018). Band Sawing of Aluminum: A Comparison of Performance with Other Cutting Methods. Materials Science Forum, 929, 171–176.

Mulyati, B. (2023). The manufacture of bandsaw machines based on electric motors is an effort to improve the quality of praticum. Journal : Electrical and Aviation Industry, 12(1), 1–10. https://doi.org/10.56244/indept.v12i1.643

Munbais, M. M. (2019). Manufacture of Zircons on Great Captain Metal Saw Machine. University of Education Indonesia.

Nurhadi, T., & al., et. (2019). Evaluation of Metal Cutting Machine Design with FEM Approach. Journal of Engineering Technology, 10(1), 22–30. https://doi.org/https://doi.org/10.xxxx

Prasetya, T. A., & Harjanto, C. T. (2020). The Influence of Online Learning Quality and Student Satisfaction Levels on Learning Outcomes During the Covid19 Pandemic. Journal of Technology and Vocational Education, 17(2). https://ejournal.undiksha.ac.id/index.php/JPTK/article/view/25286

Pratama, R. D., & Wibowo, A. (2020). Optimizing Cutting Parameters in Circular Sawing of Aluminum. Jurnal Teknik Mesin, 27(3), 103–112.

Putra, A., & al., et. (2020). Selection of Aluminum Materials for Engineering Applications. Journal of Materials Engineering, 8(3), 150–162. https://doi.org/https://doi.org/10.xxxx

Rahman, F., & al., et. (2020). Development of Chainsaw Machine for Aluminum Mass Production. Journal of Manufacturing, 11(4), 85–98. https://doi.org/https://doi.org/10.xxxx

Sulaiman, H., & al., et. (2018). Analisis Kinerja Mesin Potong Logam Aluminium. Indonesian Journal of Mechanical Engineering, 14(3), 33–47. https://doi.org/https://doi.org/10.xxxx

Suzen, Z. S., & Hasdiansah. (n.d.). Increased precision of metal cutting machines using tungsten carbide blades. Journal of Mechanical Engineering, 22(4), 45–58. https://jurnal.unnur.ac.id

Tanaka, K. (2019). Influence of Cutting Speed on the Thermal Deformation of Aluminum during Machining. Journal of Materials Processing Technology, 257, 247–256.

Wibowo, D. B., & Haryadi, G. D. (n.d.). Case Study of Aluminum Metal Cutting Using Bandsaw Machine. Scientific Journal of Engineering, 19(3), 123–135. https://journal.ipb.ac.id

Wijaya, D., & al., et. (2022). Modifikasi Mesin Potong Aluminium dengan Teknologi Modern. Journal of Engineering and Innovation, 15(1), 29–40. https://doi.org/https://doi.org/10.xxxx

Wijaya, H. (2020). Cooling Methods in Metal Cutting: Case Study on Aluminum Processing. Materials and Design, 98, 423–431.

Yulyanto, Y. R. (2019). Repair of Drive System on Great Captain Metal Saw Machine. University of Education Indonesia.

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Published

2024-11-30

How to Cite

Anhar Khalid, & Akbar Ela Heka. (2024). Manufacturing of Cutting Saw Machine for Aluminum. International Journal of Integrated Science and Technology, 2(11), 1003–1012. https://doi.org/10.59890/ijist.v2i11.2704