International Scientific Journal

Thermal Science - Online First

online first only

Measurement of thermal emission during cutting of materials using abrasive water jet

PAPER REVISED: 2016-01-29
PAPER ACCEPTED: 2016-02-03
  1. Simko, M., Chupac, M., Thermovision in praxis, University of Zilina, Zilina, SK, 2007
  2. Kovacevic, R., Mohan R., Beardsley H. E., Monitoring of thermal energy distribution in abrasive waterjet cutting using infrared thermography, J. Manufact. Sci. Eng., 118 (1996), pp. 555-563
  3. Hreha, P., et al., Monitoring of focusing tube wear during Abrasive WaterJet (AWJ) cutting of AISI 309, Metalurgija, 53 (2014), 4, pp. 533-536
  4. Hreha, P., et al., Investigation of sandwich material surface created by abrasive water jet (AWJ) via vibration emission, Metalurgija, 53(2014), 1, pp. 29-32
  5. Hreha P., et al. Roughness parameters calculation by means on-line vibration monitoring emerging from AWJ interaction with material, Metrology and Measurement Systems, XXII (2015), 2, pp. 315 - 326
  6. Hlaváček, P., et al. Sandstone turning by abrasive water jet, Rock Mechanics and Rock Engineering, 48 (2015), 6, pp. 2489-2493
  7. Zelenak, M., et al. Visualisation and measurement of high-speed pulsating and continuous water jets, Measurement, 72 (2015), pp. 1-8
  8. Kinik, D., et al. On-line monitoring of technological process of material abrasive water jet cutting, Tehnicki Vjesnik, 22 (2015), 2, pp. 351-357
  9. Hloch, S., et al. Abrasive water jet (AWJ) titanium tangential turning evaluation, Metalurgija, 53 (2014), 4, pp. 537-540
  10. Hloch, S., et al. Analysis of acoustic emission emerging during hydroabrasive cutting and options for indirect quality control, Int. J. Man Tech., 66 (2013), 1-4, pp. 45-58
  11. STN EN 13187 Thermal performance of buildings. Qualitative detection of thermal irregularities in building envelopes. Infrared method.
  12. Brown, S., Thermal emission measurement and calibration, Bachelor thesis, Massachusetts Institute of Technology, Massachussets, USA, 2009
  13. Foldyna, J., et al., Utilization of ultrasouns to enhance high-speed water jet effects, Ultrasound Sonochemistry, 11 (2004), 3-4, pp. 131-137
  14. Foldyna, J., et al., Erosion of metals by pulsating water jet, Technicki vjesnik, 19 (2012), 2, pp.381-386
  15. Hreha, P., et al., Determination of vibration frequency depending on abrasive mass flow rate during abrasive water jet cutting, Int. J. Man Tech., 77 (2014), 1, pp. 763-774
  16. Hloch, S., et al., Disintegration of bone cement by continuous and pulsating water jet, Technicki vjesnik, 20 (2013), 4, pp. 593-598