Influence of Machining Parameters on Machine Tool Loads at Rotary Ultrasonic Machining of Cubic Boron Nitride

Marcel Kuruc; Juraj Vagovský; Jozef Peterka

doi:10.4028/www.scientific.net/KEM.686.155

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Influence of Machining Parameters on Machine Tool Loads at Rotary Ultrasonic Machining of Cubic Boron Nitride
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 686Influence of Machining Parameters on Machine Tool...

Influence of Machining Parameters on Machine Tool Loads at Rotary Ultrasonic Machining of Cubic Boron Nitride

Abstract:

Poly-crystalline cubic boron nitride (PCBN) is one of the hardest known material. Therefore only advanced methods are able to treat such material. Advanced machining methods, proper for machining of hard and brittle materials (such as glass and ceramics) include rotary ultrasonic machining (RUM). However, high hardness of workpiece cause higher loads and it could negatively affect achievable accuracy and surface topography. Machine loads are affected by both: machined material and machining parameters. This contribution investigates influence of machining parameters, such as spindle speed, feed rate and depth of cut, on loads of machine tool during machining of PCBN by rotary ultrasonic machining.

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Periodical:

Key Engineering Materials (Volume 686)

Pages:

155-160

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.686.155

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Online since:

February 2016

Authors:

Marcel Kuruc*, Juraj Vagovský, Jozef Peterka

Keywords:

Loads of Machine Tool, Polycrystalline Cubic Boron Nitride, Rotary Ultrasonic Machining

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References

[1] Jiaqian Q., Norimasa N., Hiroaki O., Toru S., Li L., Duanwei H., Tetsuo I.: Polycrystalline γ-boron: As hard as polycrystalline cubic boron nitride. Japan, 13p. Available on Internet: http: /arxiv. org/ftp/arxiv/papers/1203/1203. 1748. pdf. (2012).

Google Scholar

[2] Changsha 3 Better Ultra-hard Materials Co. Available on Internet: http: /3bdiamond. com.

Google Scholar

[3] Nanodiamond & Superhard Thin-films. Available on Internet: http: /www. cityu. edu. hk/cosdaf/cbn_property. htm.

Google Scholar

[4] Turňa, M.: Špeciálne metódy zvárania (Special welding methods). Bratislava: Alfa, (1989).

Google Scholar

[5] Hrivňák I.: Zváranie a zvariteľnosť materiálov (Welding and Weldability of Materials), Bratislava, 2009, ISBN 978-80-227-3167-6.

Google Scholar

[6] DMG MORI - Ultrasonic 20 linear. Available on the Internet: http: /en. dmgmori. com/products/ultrasonic/ultrasonic-linear/ultrasonic-20-linear.

Google Scholar

[7] Beňo M., Zvončan M., Kováč M., Peterka J.: Circular interpolation and positioning accuracy deviation measurement on five axis machine tools with different structures. In: Tehnicki Vjesnik - Technical Gazette. - ISSN 1330-3651. - Vol. 20, No. 3 (2013).

Google Scholar

[8] Zvončan M., Kováč M., Kucháriková E., Buranský I.: Cutting fluid´s pressure influence on surface quality in Rotary Ultrasonic Machining. In: TEAM 2011 : Proceedings of the 3rd International Scientific and Expert Conference with simultaneously organised 17th International Scientific Conference CO-MAT-TECH 2011, 19th -21st October 2011, Trnava Slovakia. Slavonski Brod: University of Applied Sciences of Slavonski Brod, 2011. ISBN 978-953-55970-4-9. pp.39-42.

DOI: 10.31410/itema.2019.159

Google Scholar

[9] Delcam – Advanced manufacturing solutions. PowerMILL. Available on the Internet: http: /www. powermill. com.

Google Scholar

[10] Zvončan M., Kováč M., Beňo M.: Machine tool´s DMG Ultrasonic 20 linear simulation in powermill CAM software. In: CA systems in production planning. ISSN 1335-3799. Vol. 12, No 1 (2012), pp.90-93.

Google Scholar

[11] Kuruc M., Vopát T., Peterka J.: Surface Roughness of Poly-crystalline Cubic Boron Nitride after Rotary Ultrasonic Machining. In Procedia Engineering. Vol. 100, 2015, pp.877-884.

DOI: 10.1016/j.proeng.2015.01.444

Google Scholar

[12] Siemens. Sinumerik 840D. Available on the Internet: http: /w3. siemens. com/mcms/mc-systems/en/automation-systems/cnc-sinumerik/Pages/cnc-systems. aspx.

DOI: 10.21667/978-5-6044782-4-0-145-155

Google Scholar

[13] Minitab 17. Available on the Internet: http: /www. minitab. com/en-us.

Google Scholar