Study of Optimum Cutting While Lathing Carbonate Steel VCN-150 Uses a Layered Carbide Chisel PVD on Dry and Wet Condition

Authors

  • Muksin R. Harahap

  • Ahmad Bakhori

  • Suhardi Napid

  • Muhammad Rafiq Yanhar

  • Abdurrozzaq Hasibuan

Received date: August 5, 2018

Accepted date: August 5, 2018

Published date: April 15, 2018

DOI:

https://doi.org/10.14419/ijet.v7i2.13.16927

Keywords:

Dry Cutting, Optimum Cutting, Surface, Roughness, Flank Wear

Abstract

To improve the productivity of this machining perhaps it may be recommended in a dry cutting but a dry cutting is recognized very sensitive to a high temperature. In this case, in order to overcome is perhaps required by using a tool carbide either in layers or without any layers whereby each layer has certain superior. There was conducted an experiment to have an optimum cutting on a carbon steel VCN-150 using a layers tool carbide  and Respond Surface Method (RSM) with a CCD operation. The result of study recommended that condition optimum cutting shall be achieved (When cutting tc ) on a medium machining refers to ISO 3685 and medium surface roughness (Ra ) ISO 1320. Statistically, there is no found significant difference between a dry and wet cutting on optimum dry condition.

 

 

References

  1. [1] A. Hasibuan et al., “Performance analysis of Supply Chain Management with Supply Chain Operation reference model,†vol. 1007, pp. 1–8, 2018.

    [2] O. K. Sulaiman et al., “Bellman Ford algorithm-in RoutingInformation Protocol ( RIP ),†vol. 1007, pp. 1–9, 2018.

    [3] A. A. Noordin, M.Y., V.C. Venkatesh, S. Sharif, S. Elting, “Application of Response Surface Methodology in describing the Performance of Coated Carbide Tools when Turning AISI 1045 Steel,†J. Mater. Process. Technol., 2004.

    [4] C. Haroen, G. A, and G. JH, The Influences of tool wear and Tool Life on Surface Integrity During Turning Tool Steel Using Uncoated Carbide. 2000.

    [5] R. E. R. H. M. Walpole, Ilmu Peluang dan Statistika untuk Insinyur dan Ilmuan, 4th ed. Bandung: ITB, 1996.

    [6] B. Wassila, “Catting Parameter Optimization to Minimize Production Time In High Speed Turning,†J. Mater. Process. Technol., 2004.

    [7] K. Schintlmeister, W, Wallgram, Wkanz, J.& Gigl, Cutting Tool Materials Coated by Chemical Vavour Deposition. 1984.

    [8] N. B. Sreejith, P.S, Dry Machining : Machining of the Future. School of Machanical and Production Engineering. Nanyang Technology University Singapure, 2000.

    [9] T. Rochim, Teori & Teknologi Proses Permesinan. Higher Education Development Support Project. Jakarta, 1993.

    [10] S. Y. M. A. R, “Surface Roughnees Model For Machining Mild Steel With Coated Carbida Tool,†Mater. Des., vol. 26, no. 4, pp. 321–326, 2008.

    [11] MTA-MSE, No TitleThe Manufacture of Machining Technology And Process Machining Technology Assoc. of The Soc Manufacture Engineering. 2001.

    [12] A. Ginting, “Tool Wear, Tool Life and Surface Roughness Evaluation in High Speed Machining of Tool Steel with Multilayer Ceramic CVD-Coated Carbide Tool,†J. Ist. Mater. Malaysia, vol. 2, no. 1, 2001.

    [13] D. C. Monggomery, Design and Analiysis of Experiment, 4th ed. Jhon Wiley & Sons Inc., 1997.

    [14] J. I. N. Ashvin J. Makadia, Optimation of Machining Parameters for Turning Operation Basedon Respone Surface Methodology. India: Gujarat Technology University, 2013.

Downloads

How to Cite

R. Harahap, M., Bakhori, A., Napid, S., Rafiq Yanhar, M., & Hasibuan, A. (2018). Study of Optimum Cutting While Lathing Carbonate Steel VCN-150 Uses a Layered Carbide Chisel PVD on Dry and Wet Condition. International Journal of Engineering and Technology, 7(2.13), 389-393. https://doi.org/10.14419/ijet.v7i2.13.16927

Received date: August 5, 2018

Accepted date: August 5, 2018

Published date: April 15, 2018