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Operational Reliability of Mechatronic Equipment Based on Pneumatic Artificial Muscle
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Analysis of Incremental Measurement of the Arm Position with Actuator
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Proposal of Linear Drive for Mechatronic Facility of Solar Panels
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Mathematical Description and Static Characteristics of the Spring Actuator with Pneumatic Artificial Muscle
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Present Trends in Designing of Technical Systems
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Pneumatic Artificial Muscle as Actuator in Mechatronic System
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Modelling of Selected Reliability Indicators of Prototype PAM Equipment
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Impact of an Excessive Wear of Bearing on the Mechatronic Devices
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Study of the Surface Material AISI 304 Usable for Actuator after the Process of Turning
p.107

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 460Study of the Surface Material AISI 304 Usable for...

Study of the Surface Material AISI 304 Usable for Actuator after the Process of Turning

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Abstract:

Innovation of the technological processes is a very important part of continuous improvement of each manufacturing company. Every manufacturing company is trying to optimize the production processes to achieve the improvement of basic indicators, which include price, quality and speed of the production process. One of the means to achieve these indicators is to optimize the cutting parameters, which ensure the desired quality of the surface in a shorter manufacturing time. Innovation of the technological parameters of the manufacturing company means to repair, improve, and transform these parameters, which are used and show loss limitations. Application of updated parameters for manufacturing company may refer to significant reduction of engineering times, improving the material flow and the other factors, but it is mainly costs saving. This article is specialized on the study of the surface quality of the material AISI 304 by turning technology with selected cutting tool of sintered carbide. This material is usable for actuator (actuators and reduction gears) too.

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Periodical:

Applied Mechanics and Materials (Volume 460)

Pages:

107-114

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.460.107

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Online since:

November 2013

Authors:

Anton Panda, Ján Duplák, Tomáš Vorobeľ, Jozef Jurko, Stanislav Fabian

Keywords:

PiN, Roughness, Turning

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] D. Mitaľ, M. Kormoš, "Electric actuators used in the industry", Methods and facilities of machining materials: the Center of progressive methods of machining in 2012. - Prešov: FVT TU, 2012, pp.89-95. - ISBN 978-80-553-1182-1

[2] E. Isakov," Cutting Data for turning of steel," Industrial Press,Inc. 989 Avenue of the Americas New York, NY 10018, p.316, 2009, ISBN 978 – 0 – 8311- 3314-6

[3] E.D. Whitney," Ceramic Cutting Tools," William Andrew Publishing/Noyes, p.353, 1994, ISBN 978-0-8155-1355-0

[4] I. Orlovsky. et. al.," Mathematical modelling of the spray drying technological process", In: Annals of DAAAM for 2011 & Proceedings of the 22nd International DAAAM Symposium on "Intelligent Manufacturing & Automation: Power of Knowledge and Creativity": 23-26th November 2011, Vienna, Austria. DAAAM International, 2011, pp.1067-1068.

DOI: 10.2507/22nd.daaam.proceedings.520

[5] J. Košturiak et. al., "Projecting of manufacturing systems for 21.Century", EDIS Žilina, (2000)

[6] J.R. Davis, Materials. ASM Specialty Handbook, ASM International, Materials Park, Ohio, p.501, 1998, ISBN 0-8170-545-1

[7] J. Zajac, et al., "Cutting facilities of new type of came cutting material." In: Proceedings of the conference PPTO, Košice, 1995, pp.138-139.

[8] K. Vasilko," Analytical theory of splinter machining," Prešov FVT, p.338, 2007, ISBN 978-80-8073-759-7

[9] P. Michalik, J. Zajac: "Intelligently programming of holes machining", In: Manufacturing Engineering, No.4, Vol. IX (2010), pp.63-65, ISSN 1335-7972

[10] R. Cep, et.al: "Ceramic cutting tool tests with interrupted cut simulator", In: IN-TECH 2010: Proceedings of International Conference on Inovative Technologies: Praha : 14. - 16. 9.2010. - Jaroměř : Tisk AS, 2010, pp.144-148. - ISBN 978-80-904502-2-6

[11] S. Hloch, J. Valíček," Prediction of distribution relationship of titanium surface topography created by abrasive waterjet," 2011. In: International Journal of Surface Science and Engineering. Vol. 5, no. 2/3 (2011), p.152–168. ISSN 1749-785X

DOI: 10.1504/ijsurfse.2011.041399

[12] V. Fecova, et. al." Possibility of a quick check on milling strategy suitability", Tehnicki Vjesnik, No.4, Vol. XIX, December 2012, pp.959-964, ISSN 1330-3651

[13] Z. Somsakova, et. al." Machining of Wood Plastic Composite", Materiale plastice, No. 1, Vol. 49, January 2012, pp.55-57, ISSN 0025-5289

[14] T. Krenický, M. Rimár: Monitoring of vibrations in the technology of AWJ. In: Key Engineering Materials. Vol. 496, 2012, pp.229-234

DOI: 10.4028/www.scientific.net/kem.496.229

[15] E. Ragan, et al., Dynamic of taking out molding parts at injection molding. Metallurgy No.4/2012,vol.51, Zagreb, Croatia, Croatian Metallurgical Society, pp.567-570

[16] M. Tóthová, et al., Operating Modes of Pneumatic Artificial Muscule Actuator, Applied Mechanics and Materials 308 (2013) 39-44.

DOI: 10.4028/www.scientific.net/amm.308.39

[17] P. Semančo, et al., Equation model to evaluate fluidity of aluminum alloys under pressure die-casting conditions with an application, Advanced Materials Research 505 (2012) 190-194.

DOI: 10.4028/www.scientific.net/amr.505.190

[18] R. Kreheľ et al.: Diagnostics of Production Systems Operation Based on Thermal Processes Evaluation, Applied Mechanics and Materials 308 (2013) 121-126.

DOI: 10.4028/www.scientific.net/amm.308.121

[19] Ľ. Straka, et al., Evaluation of Capability of Measuring Device on the Basis of Diagnostics, Applied Mechanics and Materials 308 (2013) 69-74.

DOI: 10.4028/www.scientific.net/amm.308.69

[20] M. Gombár, et al., Microhardness of the Coatings Created by Anodic Oxidation of Aluminium, Applied Mechanics and Materials 308 (2013) 95-100.

DOI: 10.4028/www.scientific.net/amm.308.95

[21] T. Duraník, et al., Proposal for possibilities of increating production productivity of thermosets compression mplding with using process simulation software, Applied Mechanics and Materials 308 (2013) 192-194.

DOI: 10.4028/www.scientific.net/amm.308.191

[22] S. Fabian, P. Čačko, Experimental Measurement and Examination of Independent and Combined Interaction of Vibrodiagnostic and Tribotechnical Methods, Applied Mechanics and Materials 308 (2013) 51-56.

DOI: 10.4028/www.scientific.net/amm.308.51

[23] A. Panda et al., Comprehensive Identification of Sintered Carbide Durability in Machining Process of Bearings Steel 100CrMn6, Advanced Materials Research 340 (2013) 30-33.

DOI: 10.4028/www.scientific.net/amr.340.30

[24] J. Mihalčová, Tribotechnical diagnosis in aircraft engine practice. In: Applied Mechanics and Materials, 308 (2013) 57-62.

DOI: 10.4028/www.scientific.net/amm.308.57

[25] I. Mrkvica, et al., Cutting efficiency by drilling with tools from different materials, Advanced Materials Research, Materials Processing Technology II. 538-541 (2012) 1327-1331.

DOI: 10.4028/www.scientific.net/amr.538-541.1327

[26] T. Duraník, et al., Influence on the Productivity of Modern Thermoset Preheating in the Compression Molding Technology, Advanced Materials Research 717 (2013) 74-78.

DOI: 10.4028/www.scientific.net/amr.717.74

[27] J. Jurko, A. Panda, Verification of surface finish as an indicator of machinability in drilling of stainless steel by DIN 1.4301, Applied Mechanics and Materials 229-231 (2012) 415-418.

DOI: 10.4028/www.scientific.net/amm.229-231.415

[28] Š. Salokyová, The Verification of Different Abrasives Types Impact on Frequency Spectrum Vibrations, Academic Journal of Manufacturing Engineering 11(2013) 108-113.

[29] T. Zaborowski, Ekowytwarzanie. Gorzow, p.100 (2007).