PENGARUH VARIASI PARAMETER TERHADAP MATERIAL REMOVAL RATE DAN KEKASARAN PERMUKAAN STAINLESS STEEL 304 PADA PROSES CNC MILLING
Keywords:
Stainless Steel 304, Material Removal Rate, Surface Roughness, Response Surface MethodologyAbstract
Large material removal rate and minimal surface roughness are the desired objectives in the CNC MORI SEIKI MV40–m process with the right process parameters to obtain a large material removal rate response and minimal surface roughness. The parameters used are cut speed, nutritional depth and spindle speed. The experimental design used based on the response surface methodology method in the form of a behnken design box. The experiment was randomized as many as 3 replications to produce more optimal results. The results showed that for parameters that contribute greatly to material removal rate and surface roughness is cutting speed and depth of cut. To obtain a large material removal rate, the cut speed is set at 143.28mm/min and the depth of cut is set at 0.25mm with a yield of 4.694mm3/minute. And to get the minimal surface roughness value, the cut speed is 118.05mm/min and the depth of cut is 0.15mm with a yield of 0.964 μm.
Downloads
References
Chan Sovannara, Tri Widagdo, Moch Yunus, dan A Anwar Sani. “ANALISA PENGARUH PROSES PERMESINAN MESIN CNC MILLING TERHADAP KEKASARANA PERMUKAAN PADA MATERIAL BAJA 9SMn36 1.0736.” Jurnal Austenit, 2016: 5.
Handoko, dan mudjijana. “PENGARUH FEED RATE TERHADAP SURFACE ROUGHNESS DAN MATERIAL REMOVAL RATE PADA OPERASI BUBUT BAHAN AUSTEMPERED DUCTILE IRON.” Research Gate, 2012: 13.
Jahan, Muhammad P, Mustafizur Sazedur Rahman, dan Yokesan Wong. “Science Direct.” Micro-Electrical Discharge Machining(Micro-EDM): processes,Varieties, and applications, 2014: 333-371.
M Yuda Pratama. “ANALISIS PARAMETER PEMOTONGAN DAN DEBIT PENDINGIN CNC MILLING TERHADAP KEKASARAN PERMUKAAN MENGGUNAKAN BOX BEHNKEN DESIGN.” Digital Repository Universitas Jember, 2017: 7.
Zainuddin. “ANALISIS TINGKAT KEKASARAN PERMUKAAN PADA HASIL PEMESINAN MESIN MILLING DENGAN VARIASI TINGGI PENCEKAMAN BENDA KERJA DAN TINGGI PEMASANGAN ENDMILL CUTTER.” Reseach Gate, 2019: 18.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2022 Dimas putra utama, Eko Yudo, Erwansyah Erwansyah
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.