Paper Titles

Monitoring of Biomass-Based Heat Production System
p.143

Impact of Lubrication Interval to Operating Status of Bearing
p.151

Analysis of Technological Head Working Pressure, Tilt Angle and Shift Impact to its Vibrations Using AWJ Technology
p.159

New Methods of Obtaining Input Data of Numerical Computations by Using Heat Treatment Simulator
p.167

Technological Head Tilt Angle Influence Analysis to Generation of Vibration during Ceramics Material Machining by Means of AWJ Technology
p.175

Progressive Technology Diagnostics and Factors Affecting Machinability
p.183

Diagnostic and Experimental Valuation on Progressive Machining Unit
p.191

Analysis of the Damage Causes of High Speed Bearing Failure
p.200

Monitoring of the Influence of Moisture Content in Thermoplastic Granulate on Rheological Properties of Material
p.207

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 616Technological Head Tilt Angle Influence Analysis...

Technological Head Tilt Angle Influence Analysis to Generation of Vibration during Ceramics Material Machining by Means of AWJ Technology

Article Preview

Abstract:

The thesis deals with a manufacturing system water jet technological head tilt angle influence analysis. The search is performed for two tilt angles and three speeds of the technological head shift. Frequency envelope comparative graphs are created for the head tilt angles 45o and 90o and for each of three speeds using graphical records which show vibration acceleration amplitude relation to its frequency. For each of the tilt angles summary comparative frequency envelope graphs in all analyzed speeds are created, too. On the base of the comparative frequency envelope graphs a discussion focused on results and formulated conclusion are performed. The paper presents a thematically integrated part of previous research and complements recent knowledge on technological and material parameter impact to water jet technology manufacturing system vibration generation.

You might also be interested in these eBooks

Operation and Diagnostics of Machines and Production Systems Operational States II

Info:

Periodical:

Applied Mechanics and Materials (Volume 616)

Pages:

175-182

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.616.175

Citation:

Cite this paper

Online since:

August 2014

Authors:

Stanislav Fabian*, Luba Bicejova

Keywords:

Speed, Technological Head, Tilt Angle, Vibration, Water Jet

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2014 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Ľ. Bičejová, Modelling and simulation of the operational parameters influence on the generating and range of vibration in manufacturing systems. Thesis, FMT Prešov, TU Košice, 2010, 184 p.

[2] Ľ. Bičejová, Water jet technology head vibration generation due to selected technology parameters fluctuation effect during alloy cutting, Applied Mechanics and Materials 308 (2013) 81-86.

DOI: 10.4028/www.scientific.net/amm.308.81

[3] Ľ. Bičejová, Abrasive kind and granularity changes affects to water jet technology head vibration during cutting HARDOX material thickness alternation process, Applied Mechanics and Materials 308 (2013) 75-79.

DOI: 10.4028/www.scientific.net/amm.308.75

[4] T. Krenický, Implementation of Virtual Instrumentation for Machinery Monitoring, in: Scientific Papers: Operation and diagnostics of machines and production systems operational states: Vol. 4. Lüdenscheid: RAM-Verlag, 2011, pp.5-8.

[5] L.M. Hlaváč, I.M. Hlaváčová, L. Gembalová, J. Kaličinský, S. Fabian, J. Mešťánek, J. Kmec, V. Mádr, Experimental method for the investigation of the abrasive water jet cutting quality, Journal of Materials Processing Technology 209/20 (2009).

DOI: 10.1016/j.jmatprotec.2009.04.011

[6] S. Pavlenko, J. Haľko, J. Maščenik, Parts of machines and mechanisms (Časti strojov a mechanizmov), 2013, 190 p. (in Slovak).

[7] S. Pavlenko, J. Haľko, The technology of 3D objects and creating technical drawings (Technológia zobrazovania 3D objektov a tvorby technických výkresov), FMT Prešov, 2011. (in Slovak).

[8] Ľ. Bičejová, S. Pavlenko, J. Maščenik, Abrasive Granularity Impact on Water Jet Technology Head Vibrations during Cutting Steel, Applied Mechanics and Materials 389 (2013) 304-309.

DOI: 10.4028/www.scientific.net/amm.389.304

[9] J. Maščenik, S. Pavlenko, Ľ. Bičejová, Component Selected Parametres Geometrical Tolerance Value Experimental Specification, Applied Mechanics and Materials 389 (2013) 1096-1099.

DOI: 10.4028/www.scientific.net/amm.389.1096

[10] Š. Gašpár, J. Paško, J. Malík, A. Panda, J. Jurko, J. Maščenik, Dependence of Pressure Die Casting Quality on Die Casting Plunger Velocity Inside a Filling Chamber of a Pressure Die Casting Machine, Advanced Science Letters 14 (2012) 499-502.

DOI: 10.1166/asl.2012.3989

[11] J. Paško, Š. Gašpár, Experimental monitoring of HB hardness and ultimate tensile strength UTS of pressure of Al-Si castings depending on the increase pressure changes, Advanced Materials Research 711 (2013) 272-275.

DOI: 10.4028/www.scientific.net/amr.711.272

[12] M. Badida, M. Gombár, L. Sobotová, J. Kmec, A. Vagaská, P. Michal, The Influence of Sodium Chloride on the Resulting AAO Film Thickness, Advanced Materials Research 816-817 (2013) 18-22.

DOI: 10.4028/www.scientific.net/amr.816-817.18

[13] M. Badida, M. Gombár, L. Sobotová, J. Kmec, Determination of electro less deposition by chemical nickeling, Metalurgija 52/3 (2013) 341-344.

[14] E. Vitikáč Batešková, M. Nováková, T. Krenický, Tramsformation of STN Standards to EN ISO Standards in the Field of Engineering, Annals of faculty engineering Hunedoara – International Journal of Engineering 9/4 (2011) 207-210.

[15] Š. Salokyová, Effect of process parameters on the vibration of Hydroabrasive Water-Jet technological Head (Vplyv procesných parametrov hydroabrazívneho prúdu na vibrácie technologickej hlavice), ATP Journal 12 (2013) 40-43. (in Slovak).

[16] A. Šmeringaiová, Dynamic Tests of Gearing, Ad Alta 3/2 (2013) 118-120.

[17] J. Halko, J. Mascenik, Differential with an integrated, newly - developed two-stage transfer, Applied Mechanics and Materials 510 (2014) 215-219.

DOI: 10.4028/www.scientific.net/amm.510.215

[18] T. Krenický, M. Rimár, Monitoring of Vibrations in the technology of AWJ, Key Engineering Materials 496 (2012) 229-234.

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

[19] T. Krenický, Meaning of vibrodiagnosis in the technology of AWJ, in: Operation and diagnostics of machines and production systems operational states, Brno: Tribun EU, 2008, pp.124-128.

[20] T. Krenický, P. Jacko, Real-time monitoring of technical systems operation (Real-time monitoring prevádzky technických systémov), Strojárstvo Extra 5 (2011) 32/1-32/2. (in Slovak).

[21] S. Fabian, Š. Salokyová, Experimental verification of abrasive mass flow impact on the technological head acceleration amplitude and vibrations frequency in the production system with AWJ technology, Manufacturing technology 12/12 (2012) 18-21.

DOI: 10.21062/ujep/x.2012/a/1213-2489/mt/12/1/18

[22] S. Fabian, Š. Salokyová, Experimental verification of the freqeuncy spectrum of unwear and wears guidance tube on the technological head vibrations creation in the production system with AWJ technology, Manufacturing Technology 12/13 (2012).

DOI: 10.21062/ujep/x.2012/a/1213-2489/mt/12/2/105

[23] J. Svetlík, P. Demeč, Virtual machining and its experimental verification, Acta Mechanica Slovaca 13/4 (2009) 68-73.

DOI: 10.2478/v10147-010-0039-8

[24] Ľ. Straka, I. Čorný, R. Kreheľ, 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

[25] R. Kreheľ, Mathematical model of machining process with regulation of particular parameter, Acta Technica CSAV 53/4 (2008) 355-373.

[26] T. Stejskal, J. Kováč, Š. Valenčík, Mechanism of randomness in vibration signals of machinery, Applied Mechanics and Materials 282 (2013) 257-262.

DOI: 10.4028/www.scientific.net/amm.282.257

[27] S. Hrehová, A. Hošovský, The possibilities of using some Matlab toolboxes to analyze of experimental data, in: Proc. of Int. Congress on Engineering and Technology ICET 2013: 25th - 27th June 2013, Dubrovnik, Croatia. Prague: RISE Association, 2013, pp.61-67.

[28] S. Adamczak, W. Makiela, K. Janusiewicz, K. Stepien, Statistical validation of the method for measuring radius variations of components on the machine tool, Metrology and Measuring Systems 18 (2011) 35-46.

DOI: 10.2478/v10178-011-0004-5

[29] J. Kmec, L. Sobotova, L. Bicejova, Categories of factors influenced on hydroerosion, in: Proc. 13th Int. Sci. Conf. Trends and Innovative Approaches in Business Processes, TU Košice, (2010).

[30] S. Fabian, Š. Salokyová, P. Jacko, Experimental verification of the frequency spectrum of unwear and wears guidance tube on the technological head vibrations creation in the production system with AWJ technology, Manufacturing Technology 12/13 (2012).

DOI: 10.21062/ujep/x.2012/a/1213-2489/mt/12/2/105

[31] S. Fabian, Š. Salokyová, AWJ cutting: the technological head vibrations with different abrasive mass flow rates, Applied Mechanics and Materials 308 (2013) 1-6.

DOI: 10.4028/www.scientific.net/amm.308.1