Mekanika

Vibration that occur in machining process is forced vibration. This vibration caused by external force excitation. External force that cause vibration in machining process is cutting force. This research was aims to determine the effect of cutting fluids and cutting speeds to vibration in milling process. The specimens were made using a cutting process type face milling, profile milling, pocket milling, and slot milling. Cutting speeds was variated at 62.83 m/min; 110 m/min; 157.14 m/min; 188.5 m/min. Vibration testing was done using the accelerometer sensor. Vibration response taken is the amplitude. The results show any type of cutting process has a different amplitude. Face milling has the smallest amplitude while slot milling has the biggest one. At cutting speeds parameter, the faster of cutting speeds the smaller of the amplitude. The use of cutting fluids can reduce the friction value between cutting tool and workpiece so that the cutting force will decrease. The use of cutting fluids causing the smaller the cutting force. The increase of the cutting force will cause greater vibration

Aditya, A. Y., Sonief, A. A., & Raharjo, R. (2014). Pengaruh Spindle Speed, Feed Rate dan Jumlah Mata Pahat Ball Nose End Mill Terhadap Kekasaran Permukaan Aluminium Pada Proses Conventional Milling. Malang.

Aguiar, M., Anselmo, E. D., & Pederiva, R. (2013). Correlating surface roughness, tool wear and tool vibration in the milling process of hardened steel using long slender tools. Brazil: International Journal of Machine Tools & Manufacture 68 (2013) 1–10.

Boothroyd, G. (1981). Fundamentals of Metal Machining and Machine Tools. Washington D.C: Scripta Book Company.

Budiarto, W., Sutikno, E., & Sulistyo, E. (2011). Pengaruh Cutting Speed dan Depth of Cut Kondisi Chatter Terhadap Kekasaran Permukaan Benda Kerja Proses Bubut. Malang.

Ihsan, K., & Mehmet, B. (2008). Experimental Examination of Main Cutting Force and Surface Roughness Depending on Cutting Parameters . Turkey: Journal of Mechanical Engineering 54(2008)7-8, 531-538.

Lazuardhy, M. T., Sutikno, E., & Sulistyo, E. (2012). Pengaruh Feed Motion Kondisi Chatter Terhadap Kekasaran Permukaan Benda Kerja Proses Bubut. Malang.

Muktiwibowo, S., Sutikno, E., & Oerbandono, T. (2011). Pengaruh Depth Of Cut dan Variasi Cutting Fluid Terhadap Surface Roughness Aluminium 6061 Hasil Proses Turning. Malang.

Nugroho, T. U., Saputro, H., & Estriyanto, Y. (2012). Pengaruh Kecepatan Pemakanan dan Waktu Pemberian Pendingin Terhadap Tingkat Keausan Cutter End Mill HSS Hasil Pemesinan CNC Milling Pada Baja St 40. Surakarta: Universitas Sebelas Maret.

Rawangwong, S., Chatthong, J., Boonchouytan, W., & Burapa, R. (2014). Influence of Cutting Parameters in Face Milling Semi-Solid AA 7075 Using Carbide Tool Affected the Surface Roughness and Tool Wear. Thailand: Energy Procedia 56 (2014) 448 –457.

Rochim, T. (1993). Teori & Teknologi Proses Permesinan. Bandung: ITB.

Sugondo, A., Siahaan, I. H., & Kristanto, B. (2008). Studi Pengaruh Kedalaman Pemakanan terhadap Getaran dengan Menggunakan Mesin Bubut Chien Yeh CY 800 Gf. Bandung.

Thomson, William T. (1995). Teori Getaran Dengan Penerapan. Terjemahan Lea Prasetio. Jakarta: Airlangga.

Zhong, W., Zhao, D., & Wang, X. (2010). A comparative study on dry milling and little