Experimental Research of Effective Cutting Speed Influence on Surface Roughness in Ball End Milling of C45 Material with Hardness 54 HRC

Sandor Ravai-Nagy; Ioan Paşca; Mircea Lobontiu; Mihai Banica

doi:10.4028/www.scientific.net/AMM.809-810.27

Paper Titles

Effects of Different Types of Grinding Fluids on Grinding Force with a Semi-Empirical Based Model
p.3

Particularities of Plane Surface Lapping
p.9

The Effect of EP/AW Additives in Emulsion Mist on the Geometric Structure of the Machined Surface during Carbon Steel C45 Turning
p.15

The Abrasion Mechanism of a Diamond Grinding Wheel with Resin Cured by Ultraviolet Light
p.21

Experimental Research of Effective Cutting Speed Influence on Surface Roughness in Ball End Milling of C45 Material with Hardness 54 HRC
p.27

Monitoring and Control of Thermal Expansion Effect on Machining Process of Aluminum Alloy Parts
p.33

Comparative Analytical Solutions to the Problem of Profiling the End Mill Cutter to Generate Helical Surfaces
p.39

Some Features of the Surface Micro- and Macroprofile Formation at Flat Face Grinding with Spindle Axis Inclination
p.45

Study of Grain Motion Parameters on a Sloping Shelf
p.51

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 809-810Experimental Research of Effective Cutting Speed...

Experimental Research of Effective Cutting Speed Influence on Surface Roughness in Ball End Milling of C45 Material with Hardness 54 HRC

Abstract:

In the context of the increasingly frequent use of curved surfaces in the design of products surrounding us, ball end mills are at present the only usable tools in the cutting of complex surfaces, either concave or convex. This aspect, once correlated with the need to reduce the surface roughness, which means an increase in the cost of processing, directs our research to those on the milling with ball end mill. In this way we can identify the optimum cutting data in terms of costs to ensure the prescribed surface roughness. The paper is based on a set of experiments on the correlation of roughness with the parameters of the cutting process, for the C45 material treated with heat at 54HRC. The paper presents a part of a complex industrial research in this area and is complementary to the published works [1, 2]

You might also be interested in these eBooks

Innovative Manufacturing Engineering 2015

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 809-810)

Pages:

27-32

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.809-810.27

Citation:

Cite this paper

Online since:

November 2015

Authors:

Sandor Ravai-Nagy*, Ioan Paşca, Mircea Lobontiu, Mihai Banica

Keywords:

Ball End Mill, Cutting Speed, Milling, Spindle Speed, Surface Roughness

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] S. Ravai-Nagy, I. Paşca, M. Lobonţiu, M. Banica, Experimental Research of Effective Cutting Speed Influence on Surface Roughness in Ball End Milling of C45 Material with Hardness 34 HRC, Applied Mechanics and Materials Vol. 657 (2014) pp.53-57.

DOI: 10.4028/www.scientific.net/amm.657.53

Google Scholar

[2] C. Melian, I. Pașca, M. Lobonțiu, Experimental research of effective cutting speed influence on surface roughness in ball end milling of C45 material, Academic Journal of Manufacturing Engineering. Vol. 11 Issue 3 (2013) 28-33.

DOI: 10.4028/www.scientific.net/amm.657.53

Google Scholar

[3] P. D. Brindasu, L. D. Beju, N. Cofaru, Generalized aproach to the design of boring heads, Revue roumaine des sciences techniques, Serie: Mecanique apliquee / Romanian Journal of Technical Sciences – Applied Mechanics, (2007) 033-036.

Google Scholar

[4] Mitsubishi, Mitsubishi Materials. Tools News, 2010. 3 Update B065G.

Google Scholar

[5] Blaser Swisslube AG, http: /www. aliyat. ae/pdf/blaser-swisslube/B-Cool_655. pdf (02. 02. 2015. ).

Google Scholar

[6] M. Cosma, Study of the Uncut Chip in 5 Axes Ball Nose End Milling for the Third Quadrant of the Tool Inclination. Applied Mechanics and Materials Vol. 371 (2013) pp.37-41.

DOI: 10.4028/www.scientific.net/amm.371.37

Google Scholar

[7] M. Boujelbene, A. Moisan, W. Bouzid, S. Torbaty, Variation cutting speed on the five axis milling, Journal of Achievements in Materials and Manufacturing Engineering. Vol. 21, No. 2 (2007) 7-14.

Google Scholar

[8] M. Sadilek, R. Cep, I. Budak, and M. Sokovic, Aspects of using tool axis inclination angle, Journal of Mechanical Engineering. 57 (2011) 681-688.

DOI: 10.5545/sv-jme.2010.205

Google Scholar