EFEK RASIO KERAMPINGAN PEMOTONGAN TERHADAP KEAUSAN PAHAT KARBIDA PADA PROSES BUBUT AA- 6061-T6

Sudjatmiko1) , Darto, 2) Abd. Rabi’3)

Authors

Keywords:

AA-6061-T6, edge wear, response surface methodology, radius corner, slenderness ratio of the cut.

Abstract

The machining parameters have effect on cutting edge wear (Vb), Slenderness ratio of the cut (δ) and the quality of the finished product with Al 6061-T6 material. The problem of the influence of Slenderness ratio of the cut (δ) to cutting edge wear (Vb) on the Lathe process affecting product quality The objective of the study is to obtain the value Slenderness ratio of the cut (δ) and wear (Vb) on the quality of the lathe product Benefits of Research To determine the Slenderness ratio of the cut (δ) related to the form of growl Methodology used in the study using Response Surface Methodology (RSM) with Three Level design, Three Parameters to determine the value of Slenderness ratio of the cut (δ) and cutting edge wear characteristics (Vb) On the AA-6061-T6 material lathe process, using a corner radius (nsr) 0.4, 0.8 and 1.2 mm, with carbide insertion chains The results obtained can find the model of the relationship between the Slenderness ratio of the cut (δ) to the cutting edge wear, Can be seen the characteristics of the cutting edge wear

References

[1].Endres William J, Raja K.
Kountonya.,2002.The Effects of Corner
Radius and Edge Radius on Tool Flank
Wear. Dept. of Mechanical
Engineering, Michigan, USA, Journal
Mechanical, Michigan, USA, Journal
Mechanical Engineering[7].
[2]. Taufiq Rochim, 2007. Teori dan
Teknologi Proses Pemesinan
Laboratorium Teknik Produksi dan
Metrologi Industri, Jurusan Teknik
Mesin, ITB, Bandung.
[3] ISO 3685. 1993.Tool Life Testing With
Single Point Turning.
[4]. Dawson and Thomas R.Kurfess., 1996.
Tool life , wear rates, and surface
quality in hard turning , research
institution SME,vol.45.pp (77-2).
[5]. Hari Singh, Pradeep Kumar, 2007,
Mathematical Models of Tool Life and
Surface Roughness for Turning
Operation through Response Surface
Methodology. Journal of scientific &
Industrial Research Vol. 66, pp 220-
226.
[6]. Y. Kevin Chou, Hui Song, 2004.Tool
nose Radius effects on finish hard
turning. Journal of material processing
Technology, (148) 259-268
[7].Suhail Adee.H, N. Ismail, S.V. Wong
and N. A. Abdul Jalil, 2010.
Optimization Cutting Parameter Based
on Surface Roughness and Assistance of
Workpiece Surface Temperature in
Turning Process.American Journal of
Engineering Applied Sciences 3 (1) :
102-108.
[8]. Mehmet Alper, Ilhan.,2015. Effects of
Cutting Tool Parameters on Surface
Roughness. ISSN International Refereed
Journal of Engineering and Science
(IRJES) (Online) 2319-183X, (Print)
2319-1821 Volume 4, Issue 8 (August
2015), PP.15-22
[9]. http://www.astonseals.com
[10]. S. Thamizhmaii and Sulaiman.,2012.
Machinability studi using chip thickness
ratio on Difficult to Cut Metals bay CBN
Cutting Tool. Engineering Materials
(259-268).
[11].Astakhov, V.P and J.Paulo,
D.,2008.Tools (Geometry and Material)
and Tool Wear. Machining
Fundamentals and Resent Advance,
XIV,361 p. 222.
[12]. Jeon, J.U and S. W. Kim.,1988. Optical
Flank Wear Monitoring Of Cutting
Tools ls by Image Processing. Journal
Department of Production Engineering,
Korea Advanced Institute of Science
and Technology, Box 150, Chong yang,
Seoul (Korea).
[13]. Sudjatmiko, Darto, Rusdijanto.,2015.
Optimasi Parameter Pemotongan pada
Mesin Bubut CNC terhadap kekasaran
permukaan pada proses Turning dengan
Respon Surface Methodolgy (RSM).
Pada Material Al – 6061. Info-Teknik
dan Aplikasi Teknik ISSN : 2459-996 X
(online), ISSN 0853-2508, edisi
Volume 16 No 2, Des.

Published

2017-09-01