References
- Summers DA. Waterjetting technology. London: E & FN Spon; 1995.10.4324/9780203475317
- Zelenak M, Foldyna J, Scucka J, et al. Visualisation and measurement of high-speed pulsating continuous water jets. Measurement. 2015;72:1–8.10.1016/j.measurement.2015.04.022
- Matthujak A, Pianthong K, Takayama K, et al. Experimental study of ignition over impact-driven supersonic liquid fuel jet. Adv Mech Eng. 2013;5:928970.
- Kovacevic R, Mohan R, Beardsley HE. Monitoring of thermal energy distribution in abrasive waterjet cutting using infrared thermography. J Manuf Sci Eng. 1996;118:555–563.10.1115/1.2831067
- Lebara A, Junkara M, Poredošb A, et al. Method for online quality monitoring of AWJ cutting by infrared thermography. CIRP J Manuf Sci Technol. 2010;2:170–175.10.1016/j.cirpj.2010.03.004
- Astarita T, Carlomagno GM. Infrared thermography for thermo-fluid-dynamics. Berlin Heidelberg: Springer-Verlag; 2013.10.1007/978-3-642-29508-9
- Znamenskaya IA, Naumov DS, Nersesyan DA, et al. Waterjet cutting machines high speed water jets dynamic characteristics research. Proceedings of the 13th Asian Symposium on Visualization; 2015 Jun 22–26; Novosibirsk, Russia.
- Menanteau S, Bougeard D, Harion J-L, et al. Wall temperature fluctuations measurements downstream of a pipe junction using infrared thermography. Quant InfraRed Thermogr J. 2013;10:172–187.10.1080/17686733.2013.800691