INFLUENCE OF THE CUTTING PARAMETERS ON FORCE, MOMENT AND SURFACE ROUGHNESS IN THE END MILLING OF ALUMINUM 6082-T6

Jelena Stanojković, Miroslav Radovanović

DOI Number
https://doi.org/10.22190/FUME180220002S
First page
157
Last page
165

Abstract


In this paper the performances, i.e. cutting force, moment and surface roughness, in the end milling of aluminum 6082-T6 with solid carbide end mill were measured and analyzed for different values of the cutting parameters: number of revolutions, feed rate and depth of cut. The cutting force and moment were measured using a Kistler piezoelectric dynamometer. Surface roughness was measured using a Mahr profilometer. The results were analyzed in the Minitab 17 software package, in order to determine the influence of the given factors on the performances and modeling of the milling process.


Keywords

Cutting Force, Moment, Surface Roughness, Aluminum

Full Text:

PDF

References


Kovač, P., Savković, B., Mijić, A., Sekulić, M., 2011, Analytical and experimental study of cutting force components in face milling, Journal of Production Engineering, 3(1), pp. 15-18.

Madić, M., Radovanović, M., 2011, Methodology of developing optimal BP-ANN model for the prediction of cutting force in turning using earlz stopping method, Facta Univesitastis-Series Mechanical Engineering, 9(1), pp. 21-32.

Ribero, J., Lopes, H., Queijo, L., Figueiredo, D., 2017, Optimization of cutting parameters to minimize the surface roughness in the end milling process using the Taguchi method, Periodica Polytechnica, Mechanical Engineering 61(1), pp. 30-35.

Maheswara, R., Venkatasubbaiah, K., 2016, Optimization of surface roughness in CNC turning using Taguchi method and ANOVA, International Journal of Advances Scientice and Tehnology, 93, pp. 1-14.

Kienzle, O., Victor, H., 1952, Determination of forces and productivity of tools used for machine tools, VDI-Z, 11(12), pp. 299-305.

Genesh babu, B., Selladurai, V., Shanmuga, R., 2008, Analytical modeling of cutting forces of end milling operation on aluminum silicon carbide particular metal matrix composite material using response surface methology, ARPN Journal of Engineering and Applied Sciences, 3(2), pp. 5-18.

Tsai, M. Y., Chang, S.Y., Hung, J.P., Wang, C:C., 2015, Investigation of milling cutting force and cutting coefficient for aluminum 6060-T6, Journal of Compiters and Electrical Engineering, 51, pp. 320-330.

Thamban, I., Abraham, B., Kurian, S., 2013, Machining characteristics analysis of 6061-T6 aluminum alloy with diamond coated and uncoated tungsten carbide tool, International Journal of Latest Research in Science and Technology, 2(1), pp. 553-557.

Tugut, Y., Cinini, H., Sahin, I., Findik, T., 2011, Study of cutting force and surface roughness in milling of Al/SiC metal matrix composites, Scientific Research and Essays, 6(10), pp. 2056-2062.

Jeyakumar, S., Marimuthu, K., Ramachandran, T., 2013, Prediction of cutting force, tool wear and surface roughness of Al 6061/SiC composite for end milling operation using RSM, Journal of Mechanical Science and Techology, 27(9), pp. 2813-2822.

Stanojković, J., Radovanović, M., 2017, Selection of solid carbide end mill for machining aluminum 6082-T6 using MCDM method, U.P.B. Sci. Bull. Series D, 79(1), pp. 175-184.

Khan, R. M., 2013, Problem solving and data analysis using minitab: A clear and easy guide to six sigma methodology, West Sussex, Wiley, United Kingdom.

Yahya, E., Ding, G., Qin, S., 2015, Optimization of machining parameters based on surface roughness prediction for AA6061 using response surface method, American Journal of Science and Technology, 2(5), pp. 220-231.

Hamidon, R., Adesta, E., Muhammad, R., Yuhan Suprianto, M., 2016. Influence of cutting parameters on cutting force and cutting temperature during pocketing operations, ARPN Journal of Engineering and Applied Science, 11(1), pp. 453-459.




DOI: https://doi.org/10.22190/FUME180220002S

Refbacks

  • There are currently no refbacks.


ISSN: 0354-2025 (Print)

ISSN: 2335-0164 (Online)

COBISS.SR-ID 98732551

ZDB-ID: 2766459-4