Paper Titles

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

Comparison of Software and Calculated Correction of the Tip Radius of Turning Tool for Control System FANUC
p.270

HomeKey Engineering MaterialsKey Engineering Materials Vol. 669Determination of Optimal Combination of...

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

Article Preview

Abstract:

The paper presents a database programme which was created on the base of the search focused on working condition impact to generating and extend of vibrations at AWJ technology production systems. The database programme serves for less complicated, but mainly quicker and more effective searching of an optimal combination of technological parametres to get minimal values of vibration parametres during AWJ technology selected materials cutting. The work presents a thematically integrated part of a dissertation.

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:

235-242

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.669.235

Citation:

Cite this paper

Online since:

October 2015

Authors:

Luba Bicejova*, Slavko Pavlenko

Keywords:

Database Programme, Technological Head, Vibrations, Water Jet

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] 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

[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, 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

[4] 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

[5] S. Fabian, Š. Salokyová, 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, Applied Mechanics and Materials 616 (2014).

DOI: 10.4028/www.scientific.net/amm.616.85

[6] Š. Salokyová, S. Fabian, The analysis of vibrations creation in abrasive water jet technology during cutting materials produced by metallurgical technologies, Metalurgija 53/3 (2014) 426.

[7] S. Rusnáková, D. Kučerka, Š. Husár, R. Hrmo, M. Kučerková, V. Rusnák, Education in Composite Materials, in: Proc. 16th Int. Conf. on Interactive Collaborative Learning ICL 2013, CTI Villach, Kazan National Research Technological University, 2013, pp.216-221.

[8] 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

[9] S. Rusnáková, D. Kučerka, M. Podařil, J. Kmec, V. Rusnák, Ľ. Bičejová, Influence of processing parameters production of sandwich composite structures designed especially for the construction of machine tool parts, Applied Mechanics and Materials 616 (2014).

DOI: 10.4028/www.scientific.net/amm.616.333

[10] Ľ. Bičejová, S. Fabian, S, Analysis of technological head working pressure, tilt angle and shift impact to its vibrations using AWJ, Applied Mechanics and Materials 616 (2014) 159-166.

DOI: 10.4028/www.scientific.net/amm.616.159

[11] J. Maščenik, S. Pavlenko, Determining the exact value of the shape deviations of the experimental measurements, Applied Mechanics and Materials 624 (2014) 339-343.

DOI: 10.4028/www.scientific.net/amm.624.339

[12] J. Haľko, S. Pavlenko, Design strength calculation of cycloidal lantern gear, BarSU Herald Scientific and practical journal: Physical and Mathematical Sciences: Engineering Sciences 1 (2013) 58-65.

[14] R. Hrmo, D. Kučerka, L. Krištofiaková, Developing the Information Competencies via E-learning and Assessing the Qualities of E-learning Text, in: Proc. 15th International Conference on Interactive Collaborative Learning and 41st International Conference on Engineering Pedagogy, Villach, (2012).

DOI: 10.1109/icl.2012.6402065

[15] R. Hrmo, D. Kučerka, Information competence and evolution of e-learning text with the fog index, in: Proc. 14th International Conference on Interactive Collaborative Learning (ICL 2011) and 11th International Conference of Virtual University (vu´11), 21-23 September 2011, Piešťany, Slovakia, 2011, pp.390-394.

DOI: 10.1109/icl.2011.6059612

[17] T. Krenický, Implementation of Virtual Instrumentation for Machinery Monitoring, in: Scientific Papers: Operation and Diagnostics of Machines and Production Systems Operational States: Vol. 4, RAM-Verlag, Lüdenscheid, 2011, pp.5-8.

[18] M. Badida, L. Sobotová, The requirements of abrasives and their possibilities in recycling in AWJ Technologies, in: Proc. of 13th Int. Multidisciplinary Sci. Geoconference SGEM 2013, 16-22 June, 2013, Albena, Bulgaria. Sofia: STEF92 Technology, 2013, pp.479-486.

DOI: 10.5593/sgem2013/bd4/s18.026

[19] J. Maščenik, Š. Gašpár, Experimental Assessment of Roughness Changes in the Cutting Surface and Microhardness Changes of the Material S 355 J2 G3 after Being Cut by Non-Conventional Technologies, Advanced Materials Research 314-316 (2011).

DOI: 10.4028/www.scientific.net/amr.314-316.1944

[20] M. Badida, J. Kmec, L. Sobotová, Ľ. Bičejová, M. Gombár, Hydroerosion and Environment, 1st Ed., Ram-Verlag, Lüdenscheid, Germany, (2013).

[21] 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.

[22] J. Kmec, D. Kučerka, M. Gombár, Ľ. Bičejová, L. Sobotová, L. Opekárová, J. Straková, A. Vagaská, R. Hrmo, Waterjet for Practice, 2nd Ed., RAM- Verlag, Lüdenscheid, Germany, (2014).

[23] 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.

[24] J. Paško, Š. Gašpár, Technological Factors of Die Casting, RAM-Verlag, Lüdenscheid, Germany, (2014).

[25] J. Haľko, J. Maščenik, 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