Performance of Abrasive Waterjet in Granite Cutting: Influence of the Textural Properties
Publication: Journal of Materials in Civil Engineering
Volume 24, Issue 7
Abstract
In this study, influence of the textural properties, e.g., grain size and its boundaries, of granite on the cutting performance of abrasive waterjet (AWJ) was experimentally investigated. In the experiments, predimensioned granite samples were cut by an abrasive waterjet. Following the cutting process, the cut depth, surface roughness, and kerf angle of the granites were evaluated. As a result, it was disclosed that the cut depths and surface roughness increased when the grain size of the granites decreased. Contrary to the behavior of the cut depths and surface roughness of the granites, the kerf angle of the granites increased with an increase of the grain size. Conversely, it was concluded that the high number of the grain boundaries led to an obtainment of higher cut depths and surface roughness, whereas it caused a lower kerf angle. Additionally, it was found that the grains horizontally lying through the cutting line resulted in lower surface roughness and cut depths, whereas the grains vertically allocated through the cutting line resulted in higher cut depths and surface roughness.
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Acknowledgments
The authors would like to express their sincere thanks and appreciation for the financial support from TÜBİTAK, (the Scientific and Technological Research Council of Turkey; project No. 108M370). Additionally, the authors are thankful to Dr. Gençağa Pürçek, from Karadeniz Technical University, for his invaluable comments and suggestions.
References
Agus, M., Bortolussi, A., Ciccu, R., Kim, W. M., and Manca, P. P. (1993). “The influence of rock properties on waterjet performance.” Proc., 7th American Waterjet Conf., WaterJet Technology Association, St. Louis, MO, 427–442.
Aydin, G., Karakurt, I., and Aydiner, K. (2010). “Investigation of effect of the process parameters on granite kerf angle in abrasive waterjet cutting.” J. Chambers Min. Eng. Turk.MDCKAP, 49(2), 17–26 (in Turkish).
Aydin, G., Karakurt, I., and Aydiner, K. (2011). “An investigation on the surface roughness of the granite machined by abrasive waterjet.” Bull. Mater. Sci.BUMSDW, 34(4), 985–992.
Bortolussi, A., Ciccu, R., Mo-Kim, W., Manca, P. P., and Massacci, G. (1991). “Jet power optimization in granite kerfing using oscillation nozzles.” Proc., 6th American Waterjet Conf., WaterJet Technology Association, St. Louis, MO, 71–85.
Carrino, L., Polini, W., Turchetta, S., and Monno, M. (2001). “AWJ to machine free form profiles in natural stone.” Proc., 2001 WJTA American Waterjet Conf., WaterJet Technology Association, St. Louis, MO, 309–327.
Duflou, J. R., Kruth, J. P., and Bohez, E. L. (2001). “Contour cutting of pre-formed parts with abrasive waterjet using 3-axis nozzle control.” J. Mater. Process. Technol.JMPTEF, 115(1), 38–43.
Ehlen, J. (2002). “Some effects of weathering on joints in granitic rocks.” CatenaCIJPD3, 49(1–2), 91–109.
Hlavac, L. M. (1999). “Theoretical and experimental investigation of a high energy waterjet efficiency on thermally treated rocks.” Proc., 10th American Waterjet Conf., WaterJet Technology Association, St. Louis, MO, 497–506.
Hlavac, L. M., et al. (2009). “Experimental method fort the investigation of the abrasive water jet cutting quality.” J. Mater. Process. Technol.JMPTEF, 209(20), 6190–6195.
Huang, C. Z., Hou, R. G., Wang, J., and Feng, Y. X. (2006). “The effect of high pressure abrasive water jet cutting parameters on cutting performance of granite.” Key Eng. Mater.KEMAEY, 304–305, 560–564.
Karakurt, I., Aydin, G., and Aydiner, K. (2010). “Optimization of process parameters for surface roughness of the granite in abrasive waterjet cutting.” Proc., 10th Int. Multidisciplinary Scientific Geoconf. (SGEM 2010), Vol. 1, Surveying Geology and Mining Ecology Management, Sofia, Bulgaria, 499–506.
Karakurt, I., Aydin, G., and Aydiner, K. (2011). “A machinability study of granite using abrasive waterjet cutting technology.” Gazi Univ. J. Sci., 24(1), 143–151.
Lauand, C. T., Martin, G. R., Hennies, W. T., and Agus, M. (2001). “Performance of waterjet cutting system in dimension stone.” Proc., 2001 WJTA American Waterjet Conf., WaterJet Technology Association, St. Louis, MO, 427–449.
Magyari, A., Ilias, N., Radu, S., and Magyari, A. A. (1999). “The influence of rock parameters during the cutting process using high pressure waterjets.” Proc., 10th American Water jet Conf., WaterJet Technology Association, St. Louis, MO, 479–484.
MA-KON. (2010). Engineering, machine and construction company, Imes Sanayi Sitesi, Istanbul, Turkey.
Miranda, R. M., Lousa, P., Mouraz, M. A. J., and Kim, T. (1993). “Abrasive waterjet cutting of Portuguese marbles.” Proc., 7th American Waterjet Conf., WaterJet Technology Association, St. Louis, MO, 443–457.
Omar, H., Pauzi, N. I. M., Shariah, M., Yusof, Z. M., and Mail, S. B. (2010). “Microcracks pattern and the degree of weathering in granite.” 〈http://www.ejge.com/2009/Ppr0955/Ppr0955.pdf〉 (Sep. 1, 2010).
Vijay, M. M. (1991). “Comparison of the performance of high-speed abrasive-entrained, cavitating and plain waterjets for selective mining applications.” Proc., 6th American Waterjet Conf., WaterJet Technology Association, St. Louis, MO, 195–212.
Wang, J., and Guo, D. M. (2003). “The cutting performance in multipass abrasive waterjet machining of industrial ceramics.” J. Mater. Process. Technol.JMPTEF, 133(3), 371–377.
Yilmaz, G. N., Karaca, Z., Goktan, R. M., and Akal, C. (2009). “Relative brittleness characterization of some selected granitic building stones: Influence of mineral grain size.” Constr. Build. Mater.CBUMEZ, 23(1), 370–375.
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© 2012. American Society of Civil Engineers.
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Received: Feb 4, 2011
Accepted: Dec 19, 2011
Published online: Dec 23, 2011
Published in print: Jul 1, 2012
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