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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 616Experimental Investigation and Analysis of the...

Experimental Investigation and Analysis of the Impact in Abrasive Mass Flow Changes with and without the Use of Sieve Analysis on Technological Head Vibrations at Hydroabrasive Cutting

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Abstract:

The paper presents and analyzes the experimental research results of impact in abrasive mass flow changes and sieving on technological head vibrations while cutting steel HARDOX 500 using the water jet technology. Vibrations were quantified by two basic parameters (vibrations frequency and vibrations acceleration amplitude). The experiments evaluation contains graphical dependence sets of vibrations acceleration amplitude on frequency, set of frequency spectrum envelopes and comparative graphs of frequency spectrum envelopes based on which new knowledge and recommendations have been created.

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Periodical:

Applied Mechanics and Materials (Volume 616)

Pages:

85-92

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.616.85

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Online since:

August 2014

Authors:

Stanislav Fabian*, Štefánia Salokyová

Keywords:

Abrasive, Experiment, Hydroabrasive Jet, Vibration

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© 2014 Trans Tech Publications Ltd. All Rights Reserved

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[1] M. Hashish, Model for Abrasive Waterjet (AWJ) Machining, Journal of Engineering Materials Technology – Transactions of the ASME 111/2 (1989) 154-162.

DOI: 10.1115/1.3226448

[2] J. Zeng, T.J. Kim, An erosion model of polycrystalline ceramics in abrasive waterjet cutting, Wear 193 (1996) 207-217.

DOI: 10.1016/0043-1648(95)06721-3

[3] Z. Yong, R. Kovacevic, Proceedings of Jetting Technology, Cagliari, C. Gee (ed. ), Mech. Eng. Pub. Ltd., Bury St Edmunds & London, 1996, pp.83-89.

[4] L. M. Hlaváč, Proceedings of Jetting Technology, Bruggy, H. Louis (ed. ), Prof. Eng. Pub. Ltd., Bury St Edmunds & London, 1998, pp.25-37.

[5] F.L. Chen, J. Wang, E. Lemma, E. Siores, Journal of Materials Processing Technology 141 (2003) 213-218.

[6] Š. Salokyová, Analysis, modelling and simulation of vibrations in manufacturing systems with water jet technology, Dissertation. Prešov, 2012, 303 p.

[7] P. Jacko, Modelling and simulation of technological parameters related to usage of non-traditional abrasives in AWJ technology, Dissertation. Prešov, 2011, 163 p.

[8] Ľ. Bičejová, Modelling and simulation of operational conditions influencing the formation and extent of vibrations in manufacturing systems, Dissertation. Prešov, 2010, 184 p.

[9] M. Servátka, Modelling, simulation and optimization of technological parameters related to requested product quality in manufacturing technologies with water jet, Dissertation. Prešov, 2009, 125 p.

[10] Š. Plančár, Modelling and simulation of influence of selected material and technological parameters in AWJ machining of steel, Thesis for dissertation exam. Prešov, (2012).

[11] 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

[12] 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

[13] Ľ. Straka, Optimization of automated quality control of manufacturing processes in engineering applications in the electrical discharge machining technology, Dissertation. Prešov, 2004, 135 p.

[14] I. Hrabčáková, Simulation and optimization of the quality and reliability of the automated production process management in engineering application of the technology in laser cutting, Dissertation. Prešov, 2003, 133 p.

[15] J. Jurko, A. Panda, M. Gajdoš, Accompanying phenomena in the cutting zone macinability machinability during turning of stainless steels, International Journal Machining and Machinability of Materials 5/4 (2009) 383-400.

DOI: 10.1504/ijmmm.2009.026899

[16] A. Panda, J. Duplák, J. Jurko, J. Zajac, Turning bearing rings and determination of selected cutting materials durability, Advanced Science Letters 19/8 (2013) 2486-2489.

DOI: 10.1166/asl.2013.4943

[17] 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

[18] L.M. Hlaváč, I.M. Hlaváčová, J. Vašek, P. Jandačka, V. Mádr, Material Grinding by Water Jets-Feasibility and Limits, Journal of Scientific Conference Proceedings 2/1 (2010) 8-14.

DOI: 10.1166/jcp.2010.1002

[19] P. Jandačka, L.M. Hlaváč, V. Mádr, J. Šancer, F. Staněk, Measurement of Specific Fracture Energy and Surface Tension of Brittle Materials in Powder Form, International Journal of Fracture 159/1 (2009) 103-110.

DOI: 10.1007/s10704-009-9376-x

[20] J. Kaličinský, Control of technological parameters of liquid jet in violation of materials, Dissertation. Ostrava, 2009, 133 p.

[21] L. Gembalová, Determine the physical - mechanical properties of the material breach of its liquid jet, Dissertation. Ostrava, 2010, 120 p.