References
- 1. VELÍŠEK, K., KOŠŤÁL, P., PECHÁČEK, F. 2006. Stroje a zariadenia pre špeciálne technológie. (Machines and equipment for special technologies.) Bratislava: STU Publishing House. ISBN 80-227-2364-9.
- 2. SOBOTOVÁ, L., KARKOVÁ, M. 2012. Kvalita rezacej vody pri technológií delenia materiálov vodným lúčom 2012. (Cutting water quality in waterjet cutting technology 2012.) [online]. [cit.10.10.2016]. Available on the Internet: https://www.sjf.tuke.sk/transferinovacii/pages/archiv/transfer/24-2012/pdf/125-128.pdf
- 3. HLOCH, J. S. et al. 2014. Abrasive waterjet (AWJ) titanium tangential turning evaluation. Metalurgija, 53, pp. 537–540.
- 4. CÁRACH, J. et al. 2016. Tangential turning of Incoloy alloy 925 using abrasive water jet technology, Int. J. Adv. Manuf. Technol. 82, pp. 1747-1752.
- 5. LISSEK, F. et al. 2016. Online-monitoring for abrasive waterjet cutting of CFRP via acoustic emission: Evaluation of machining parameters and work piece quality due to burst analysis. In: Procedia Engineering, pp. 67 – 76.
- 6. HASHISH, M., SOUTH, A. 1991. Optimization Factors in Abrasive - Waterjet Machining. J. Eng. Ind. 1.
- 7. WANG, J., GUO, D. M. 2002. A predictive depth of penetration model for abrasive waterjet cutting of polymer matrix composites. J. of Mat. Proc. Tech., 121(2–3), pp. 390–394.
- 8. HREHA, P. et al. 2015. Determination of vibration frequency depending on abrasive mass flow rate during abrasive water jet cutting. Int. J. Adv. Manuf. Technol., 77, pp. 763–774.
- 9. KUMAR, R. et al. 2017. Surface integrity analysis of abrasive water jet - cut surfaces of friction stir welded joints. Int. J. Adv. Manuf. Technol.
- 10. SRIVASTAVA, M., et al. 2016. Potential of using water jet peening as a surface treatment process for welded joints. In: Procedia Engineering, pp. 472–480.
- 11. HLOCH, S., GOMBAR, M., RADVANSKÁ, A. 2007. Non-linear modelling and evaluation of pressure and traverse rate influence to acoustic sound pressure level at abrasive waterjet machining. Int. J. Autom. Control, 1.
- 12. JURISEVIC, B., BRISSAUD, D., JUNKAR, M. 2004. Monitoring of abrasive water jet (AWJ) cutting using sound detection. Int. J. Adv. Manuf. Technol. 24, 733–737.
- 13. MOMBER, A. W., KOVACEVIC, R. 1998. Principles of Abrasive Water Jet Machining. London: Springer –Verlag.
- 14. KULEKCI, M. K. 2002. Processes and apparatus developments in industrial waterjet applications. Int. J. Mach. Tools Manuf. 42, pp. 1297–1306.
- 15. HLOCH, S., VALÍČEK, J. 2012. Topographical anomaly on surfaces created by abrasive waterjet. Int. J. Adv. Manuf. Technol. 59, pp. 593–604.
- 16. MIČIETOVÁ, A. 2001. Nekonvenčné metódy obrábania. (Unconventional machining methods.) Žilina: ŽU Publishing House. (In Slovak)
- 17. BÍLEK, O., SMETKA, P., BAĎUROVÁ, J. 2017. Deflection of complex geometry cutting tools. Manufacturing Technology, 17(6), pp. 830-836. ISSN 1213-2489.
- 18. LANCEA, C. 2004. Considerations about the Cutting Force Variation when Milling with Ball-Nose Tools. Academic Journal of Manufacturing Engineering, 2, p. 55-59. ISSN: 1583-7904
- 19. Water jet cutting machinas, information on http://www.imes-icore.de/esp/productos-industrialessistema-cnc-html/equipos-corte-agua-html/conocimientos-especializados-html.html
- 20. KOWALIK, M. et al. 2016. Plastic Deformations of Measured Object Surface in Contact with Undeformable Surface of Measuring Tool. In: MEASUREMENT SCIENCE REVIEW, 16(5), pp. 254-259.