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Ocena przydatności stosowania cząstek suchego lodu CO2 w obróbce powierzchni strugą wodno-lodową

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Warianty tytułu
EN
An evaluation of the usefulness of using CO2 dry ice particles in surface treatment
Języki publikacji
PL
Abstrakty
PL
W artykule przedstawiono wyniki termodynamicznych analiz cząstek suchego lodu w czasie kreowania wysokociśnieniowej strugi wodno-lodowej. Zaprezentowano efekty badań eksperymentalnych wpływu wydatku suchego lodu na wydajność usuwania powłok lakierniczych strugą wodno-lodową. Dokonano oceny stanu powierzchni podłoża, które po obróbce nie wykazuje żadnych zmian w stosunku do stanu pierwotnego.
EN
The paper covers theoretical analyses and experimental results aimed at an evaluation of the usefulness of CO2 dry ice particles for the removal of varnish coats. In the first section, there is performed a thermodynamic analysis of CO2 dry ice particles of the temperature lower than the sublimation temperature, during the creation of a water-ice jet. In this case, there was determined the impact of individual treatment parameters (Figs. 2 and 3) that are of significance to the mechanical properties of dry ice particles. Furthermore, a thermodynamic analysis of a high-pressure water-ice jet for ice particles of the temperature being equal to the sublimation temperature is conducted. It was established that during the transport of dry ice particles from a tank to a concentric multi-hole nozzle, a maximum of 4.7% of CO2 could be sublimated. Additionally, in a high-pressure water-ice jet, where 30% of dry ice will be sublimated, the water jet temperature will be reduced by a maximum of 1.03 K, when the initial air temperature is 293 K and the initial water temperature is also 293 K. In the further part of the paper, the influence of the dry ice expenditure on the treatment efficiency (Fig. 6) is discussed. There was found the occurrence of the maximum limiting expenditure of dry ice particles, with the use of which the best cleaning results are obtained. There was also carried out an analysis of the macro- and micro-structure of the substrate surface, from which varnish coats were removed with the aid of a high-pressure water-ice jet.
Wydawca
Rocznik
Strony
656--659
Opis fizyczny
Bibliogr. 14 poz., rys., wykr. wzory
Twórcy
autor
  • Politechnika Koszalińska, Wydział Mechaniczny, ul. Racławicka15-17, 75-620 Koszalin
Bibliografia
  • [1] Sharma V., Chattopadhyaya S., Hloch S.: Multi response optimization of process parameters based on Taguchi-Fuzzy model for coal cutting by water jet technology. The International Journal of Advanced Manufacturing Technology, vol. 56, s. 1019–1025, 2011.
  • [2] Huang L., Folkes J., Kinnell P., Shipway P. H.: Mechanisms of damage initiation in a titanium alloy subjected to water droplet impact during ultra-high pressure plain waterjet erosion. Journal of Materials Processing Technology, vol. 212, s. 1906–1915, 2012.
  • [3] Azhari A., Schindler Ch., Kerscher E., Grad P.: Improving surface hardness of austenitic stainless steel using waterjet peening process. The International Journal of Advanced Manufacturing Technology, DOI: 10.1007/s00170-012-3962-1, 2012.
  • [4] Chillman A., Ramulu M., Hashish M.: Waterjet peening and surface preparation at 600 MPa: A preliminary experimental study. Journal of Fluids Engineering, Transactions of the ASME, vol. 129, Issue 4, s. 485–490, 2007.
  • [5] Heinzel C., Antsupov G.: Prevention of wheel clogging in creep feed grinding by efficient tool clearing. CIRP Annals - Manufacturing Technology, vol. 61, s. 323–326, 2012.
  • [6] Bodnárová L., Sitek L., Hela R., Foldyna J.: New potential of highspeed water jet technology for renovating concrete structures. Slovak Journal of Civil Engineering, vol. XIX, No. 2, s. 1–7, 2011.
  • [7] Borkowski J., Borkowski P., Chomka G.: Thermodynamical aspects of high-pressure water-ice jet formation. Archives of Civil and Machanical Engineering. Wrocław, vol. II, No. 1, s. 35–46, 2002.
  • [8] Geskin E. S., Shishkin D., Babets K.: Application of ice particles for precision cleaning of sensitive surfaces. Proc. of the 10th American Waterjet Conference. vol. 1, Houston, Texas, s. 315–333, 1999.
  • [9] Ivey R. B.: Carbon dioxide pellets blasting paint removal for potential application on Warner Robins Managed Air Force Aircraft. 1st Ann. Int. Workshop on Solvent Substitution. Phoenix, s. 88–90, 1990.
  • [10] Dunsky C. M., Hashish M.: Feasibility study of the use of ultrahigh-pressure liquefied gas jets for machining of nuclear fuel pins. Proceedings of the 8th American Water Jet Conference, vol. II, Houston, Texas, s. 505–517, 1995.
  • [11] Liu H. T., Fang S., Hibbard C., Maloney J.: Enhancement of ultrahigh-pressure technology with LN2 cryogenic jets. Proceedings of the 10th American Waterjet Conference. vol. I, Huston, Texas, s. 297–313, 1999.
  • [12] Rex J.: A review of recent developments in surface preparation methods. Journal of Protective Coatings and Linings, s. 50–58, 1990.
  • [13] Chomka G., Bil T.: Interpretacja wyników pomiarów powierzchniowej wydajności usuwania powłok lakierniczych strugą wodno-lodową. PAK, vol. 57, nr 5, s. 538-541, 2011.
  • [14] Liu B.-L., Liu L.-H., Wu L.: Research on the preparation of the ice jet and its cleaning parameters. Proceedings of the 14th International Conference on Jetting Technology. Brugge, Belgium, s. 203–210, 1998.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-435a0259-84ed-4d88-b0b0-16de3b04dd23
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