Paper Titles

Comparison and Analysis of the Flow Rate
p.197

Measuring, Processing and Evaluating of Technology Head Water Jet Vibration Signal
p.205

Analysis of the Effects of Factors in Relation to Vibration of Technological Head during the Splitting of Construction Steels through Hydro-Abrasive Splitting
p.212

Experimental Investigation and Determination of Abrasive Granularity Change Impact to Technology Head Vibration Generating during AWJ Technology Steel Cutting
p.220

Evaluation of Vibration Parameters under Machining
p.228

Determination of Optimal Combination of Technological Parametres during AWJ Technology Material Cutting by Means of Created Database Programme
p.235

Measurement and Analysis of Mass Flow and Feed Speed Impact on Technological Head Vibrations during Cutting Abrasion Resistant Steels with Abrasive Water Jet Technology
p.243

Elimination of Pressure Cylinder Deflection on Two Cylinder Bending Machine
p.253

Formation and Spreading of Cracks at Die due to Heat Fatigue
p.262

HomeKey Engineering MaterialsKey Engineering Materials Vol. 669Evaluation of Vibration Parameters under Machining

Evaluation of Vibration Parameters under Machining

Article Preview

Abstract:

AWJ abrasive water jet belongs to the unconventional methods of machining. Waterjet offers a number of advantages over other cutting methods. There is no heat or chemical material damage, high accuracy and precision, the ability to cut any material and others. Despite many advantages of AWJ has some technical elements that can be improved and optimized. This article deals with effect of vibration on the technological head and consequently wears. The aim of the experiments is to find the most appropriate feed rate, which extends the life of the technological head.

You might also be interested in these eBooks

Operation and Diagnostics of Machines and Production Systems Operational States III

Info:

Periodical:

Key Engineering Materials (Volume 669)

Pages:

228-234

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.669.228

Citation:

Cite this paper

Online since:

October 2015

Authors:

Anton Panda*, Marek Prislupčák, Jozef Jurko, Tibor Krenický, Marek Jančík

Keywords:

Frequency, Technological Head, Vibration, Water Flow

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2016 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Z. Krajný, Water jet in practice (Vodný lúč v praxi), Miroslav Mračko, Bratislava, 1998 (in Slovak).

[2] K. Vasilko, Analytical theory of machining process (Analytická teória trieskového obrábania), Faculty of Manufacturing Technologies of TU Košice, Prešov, 2007 (in Slovak).

[3] A. Humár, Technology: Machining Technology (Technologie obrábění), Technical University of Brno, Brno, 2004 (in Czech).

[4] A. Mičietová, M. Čilliková, Technology – machining (Technológia – obrábanie). EDIS Publishing ŽU, Žilina, 2009, pp.390-391 (in Slovak).

[5] J. Valíček, S. Hloch, Measurement and control of surface quality created by dividing abrasive jet (Měření a řízení kvality povrchu vytvořených hydroabrazivním dělením), 1st ed., ÁMOS, Ostrava, 2008 (in Czech).

[6] J. Kmec, Impact of water jet parameters on surface created by hydroabrasive erosion (Vplyv parametrov vodného lúča na povrch vytvorený hydroabrazívnou eróziou), FMT TUKE, Prešov, 2010 (in Slovak).

[7] I. Maňková, Progressive Technologies (Progresívne technológie), FME TUKE, Košice, 2000 (in Slovak).

[8] E. Spišák, R. Šúň, J. Kmec, M. Gombár, Analysis of cutting heads for AWJ machining technology, Transfer inovácií 22 (2012) 75-79.

[9] J. Kmec, L. Sobotova, L. Bicejova, Categories of factors influencing hydroerosion, in: Proc. 13th Int. Sci. Conf. Trends and Innovative Approaches in Business Processes, 2010, Kosice, 1-10.

[10] S. Hloch, J. Valíček, Influence factors on surface topography created by hydroabrasive division (Vplyv faktorov na topografiu povrchov vytvorených hydroabrazívnym delením), FMT of TU Košice, Prešov, 2008 (in Slovak).

[11] 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

[12] 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.

[13] A. Panda, J. Duplák, T. Vorobeľ, J. Jurko, S. Fabian, Study of the Surface Material AISI 304 Usable for Actuator after the Process of Turning, Applied Mechanics and Materials 460 (2014) 107-114.

DOI: 10.4028/www.scientific.net/amm.460.107

[14] I. Mrkvica, M. Janoš, P. Sysel, Cutting efficiency by drilling with tools from different materials, Advanced Materials Research 538-541 (2012) 1327-1331.

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

[15] I. Mrkvica, M. Janoš, P. Sysel, Contribution to milling of materials on Ni base, Applied Mechanics and Materials 217-219 (2012) 2056-(2059).

DOI: 10.4028/www.scientific.net/amm.217-219.2056

[16] I. Pandová, T. Gondová, K. Dubayová, Natural and modified clinoptilolite testing for reduction of harmful substance in manufacturing exploitation, Advanced Materials Research 518-523 (2012) 1757-1760.

DOI: 10.4028/www.scientific.net/amr.518-523.1757

[17] A. Panda, J. Jurko, M. Džupon, I. Pandová, Optimization of heat treatment bearings rings with goal to eliminate deformation of material, Chemické listy 105/16 (2011) 459-461.

[18] A. Panda, J. Duplák, J. Jurko, Analytical Expression of T-vc dependence in standard ISO 3685 for cutting ceramic, Key Engineering Materials, 480-481 (2011) 317-322.

DOI: 10.4028/www.scientific.net/kem.480-481.317

[19] A. Panda, J. Duplák, J. Jurko, Theory and Practice in the process of T-vc dependence creation for selected cutting material, Advanced Materials Research 716 (2013) 261-265.

DOI: 10.4028/www.scientific.net/amr.716.261

[20] A. Panda, J. Duplák, K. Vasilko, Comprehensive Identification of Durability for Selected Cutting Tool Applied on the Base of Taylor Dependence, Advanced Materials Research 716 (2013) 254-260.

DOI: 10.4028/www.scientific.net/amr.716.254

[21] J. Duplák, T-vc dependence for cutting ceramic in standard ISO 3685, Manufacturing Engineering 9/4 (2010) 58-62.

[22] J. Duplák, Identification of comprehensive T-vc dependence, Thesis, FMT TUKE, Prešov, (2010).

[23] P. Michalik, J. Zajac, M. Hatala, D. Mitaľ, V. Fečová, Monitoring surface roughness of thin-walled components from steel C45 machining down and up milling, Measurement 58 (2014) 416-428.

DOI: 10.1016/j.measurement.2014.09.008

[24] 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

[25] E. Ragan, J. Dobránsky, P. Baron, M. Kočiško, J. Svetlík, Dynamic of taking out molding parts at injection molding, Metallurgy 51/4 (2012) 567-570.

[26] A. Šmeringaiová, P. Šmeringai, Dynamic Analysis of Worm Gear Boxes, Applied Mechanics and Materials 616 (2014) 216-223.

DOI: 10.4028/www.scientific.net/amm.616.216

[27] R. Kreheľ, Ľ. Straka, T. Krenický, 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

[28] I. Pandová, Nitrogen oxides reduction by zeolite sorbents in manufacturing use, Advanced Materials Research 937 (2014) 487-490.

DOI: 10.4028/www.scientific.net/amr.937.487

[29] V. Simkulet, M. Kočiško, Z. Hutyrová, V. Fečová, Analysis of the Damage Causes of High Speed Bearing Failure, Applied Mechanics and Materials 616 (2014) 200-206.

DOI: 10.4028/www.scientific.net/amm.616.200

[30] J. Peterka, P. Pokorný, Influence of the Lead Angle from the Vertical Axis Milling on Effective Radiu sof the Cutter, Key Engineering Materials 581 (2014) 44-49.

DOI: 10.4028/www.scientific.net/kem.581.44

[31] L. 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

[32] T. Duranik, J. Ruzbarsky, F. Manlig 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

[33] I. Leššo, P. Flegner, M. Šujanský, E. Špak, Research of the possibility of application of vector quantisation method for effective process control of rocks disintegration by rotary drilling, Metalurgija 49/1 (2010) 61-65.

[34] I. Leššo, P. Flegner, J. Futó, Z. Sabová, Utilization of signal spaces for improvement of efficiency of metallurgical process, Metalurgija 53 (2014) 75-77.

[35] 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 18/1 (2011) 35-46.

DOI: 10.2478/v10178-011-0004-5

[36] I. Pandová, P. Oravec, A. Radvanská, Application of Natural Clinoptilolite for Heavy Metals Reducting in Waters, in: Proc. of 14-th International Multidisciplinary Scientific GeoConference SGEM 2014, 17. -26. 6. 2014, Albena, Bulgaria, STEF92 Technology, Sofia, 2014, p.33.

DOI: 10.5593/sgem2014/b52/s20.005

[37] J. Brezinová, A. Guzanová, E. Spišák, Assessment of properties thermal sprayed coatings realised using cermet blend powder, Metalurgija 53/4 (2014) 661-664.

[38] T. Zaborowski, Eco-production (Ekowytwarzanie), IBEN, Gorzów Wlkp, 2007 (in Polish).