Yayınlar

Seçilmiş Yayınlar:

  1. O.Y.Toraman, H.Topal, O.Bayat, A.T.Atımtay, 2004. Emission Characteristics of Co-Combustion of Sewage Sludge with Olive Cake and Lignite Coal in a Circulating Fluidized Bed, Journal of Environmental Science and Health, Part A-Toxic/Hazardous Substances and Environmental Engineering, 39(4), 973-986.
  2. S.Kahraman, O.Y.Toraman, 2008. Predicting Los Angeles Abrasion Loss of Rock Aggregates from Crushability Index, Bulletin of Material Science, 31(2), 173-177.
  3. O.Y.Toraman, S.Kahraman, S.Cayırlı, 2010. Predicting the Crushability of Rocks from Impact Strength Index, Minerals Engineering, 23(9), 752-754.
  4. O.Y.Toraman, 2010. The Effect of High Power Microwave Energy on the Grindability of Turkish Cayirhan Lignite, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 32(19), 1794-1800.
  5. O.Y.Toraman, D.Katırcıoglu, 2011. Effect of Various Operating Factors on Wet Stirred Mill Performance, Particulate Science and Technology, 29(3), 242-251.
  6. M.Ucurum, O.Y.Toraman, T.Depci, E.Yogurtcuoglu, 2011. A Study on Characterization and Use of Flotation to Separate Unburned Carbon in Bottom Ash from Çayırhan Power Plant, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 33(6), 562-574.
  7. O.Y.Toraman, D.Katırcıoglu, 2011. A Study on the Effect of Process Parameters in Stirred Ball Mill, Advanced Powder Technology, 22(1), 26-30.
  8. O.Y.Toraman, 2011. Use of Wet Grinding and Aging to Produce Narrow Particle Size Distribution, Particulate Science and Technology, 29(5), 475-480.
  9. O.Y.Toraman, 2012. Effect of Chemical Additive on Stirred Bead Milling of Calcite Powder, Powder Technology, 221, 189-191.
  10. M.S.Delibalta, O.Y.Toraman, 2012. The Effect of Microwave Energy on Grindability of a Turkish High-Ash Coal, Energy Science and Technology, 3(2), 46-49.
  11. O.Y.Toraman, 2013. Dry Fine Grinding of Calcite Powder by Stirred Mill, Particulate Science and Technology, 31(3), 205-209.
  12. O.Y.Toraman, M. S. Delibalta, 2015. The Influence of Microwave Preheating on Grindability of Low Rank Coal by Using Impact Strength Index (ISI), Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 37 (19), 2131-2137.
  13. O.Y.Toraman, 2015. Production of Sub-Micron Particles by Mechanical Treatment: Width of Particle Size Distribution and Fineness of Product, Particulate Science and Technology, 33(6), 666-670.
  14. Atici, U., 2011, Prediction of the strength of mineral admixture concrete using multivariable regression analysis and an artificial neural network, Expert Systems with Applications, Vol. 38, pp. 9609-9618.
  15. Atici, U., 2010, Prediction of the Strength of Mineral-Addition Concrete Using Regression Analysis. Magazine of Concrete Research, Vol. 62 (8), pp. 585-592.
  16. Atici, U., Ersoy, A., Ozturk, B., 2009, Application of destruction specific energy for characterisation of concrete paving blocks. Magazine of Concrete Research, Vol. 61(3), pp193-199.
  17. Atici, U., Ersoy, A., 2009, Correlation of Specific Energy of Cutting Saws and Drilling Bits with Rock Brittleness and Destruction Energy. Journal of Materials Processing Technology, Vol.209(5), pp2602-2612.
  18. Ersoy, A., Atici,U., 2008. Response to Dr Goktan’s Discussion “Correlation of P and S-Waves with Cutting Specific Energy and Dominant Properties of Volcanic and Carbonate Rocks” Rock Mech Rock Eng, Vol 41 (6),pp.953-954.
  19. Ersoy, A. and Yunsel, T.Y., Atici, U., 2008, Geostatistical Conditional Simulation for the Assessment of Contaminated Land by Abandoned Heavy Metal Mining. Environmental Toxicology, Vol.23(1), pp. 96-109
  20. Atici, U., Ersoy, A., 2008. Evaluation of destruction specific energy of fly ash and slag admixed concrete interlocking paving blocks (CIPB). Construction and Building Materials. Vol. 22, pp.1507-1514.
  21. Ersoy, A., Atici, U., 2007. Correlation of P and S-Waves with Cutting Specific Energy and Dominant Properties of Volcanic and Carbonate Rocks. Rock Mechanics and Rock Engineering, Vol.40(5), pp.491-504 (Technical Note).
  22. Ersoy, A., Atici, U., 2005, Specific energy prediction of circular diamond saw in cutting different types of rocks using multi-variable linear regression analysis, Journal of Mining Science, Vol. 41, pp. 240-260.
  23. Ersoy, A., Buyuksagic, S., Atici, U., 2005, Wear characteristics of circular diamond saws in the cutting of different hard abrasive rocks. Wear, Vol. 258, pp. 1422-1436.
  24. Ersoy, A., Atici, U., 2004, Performance characteristics of circular diamond saws in cutting different types of rocks. Diamond and Related Materials, Vol. 13, pp. 22-37.
  25. Kahraman, S., Ulker, U. and Delibalta, M. S., (2007). A quality classification of building stones from P-wave velocity and its application to stone cutting with gang saw. J. South Afr. Inst. Min. Metall., 107, 427-430.  
  26. S. Kahraman, M. S. Delibalta and R. Comakli, (2013). Noise level measurement test to predict the abrasion resistance of rock aggregates, Journal Fluctuation and Noise Letter-FNL. 12, No.4, 1350021 (2013) [12 pages] DOI: 10.1142/S0219477513500211.
  27. M. S. Delibalta, S. Kahraman, and R. Comakli, (2015). The Usability of Noise Level from Rock Cutting for the Prediction of Physico-Mechanical Properties of Rocks, Journal Fluctuation and Noise Letter-FNL. 14, No.1, 1550006 (2015) [12 pages] DOI: 10.1142/S0219477515500066.
  28. Kılıç, A., Atiş, C. D., Teymen, A., Karahan, O., Özcan, F., Bilim, C., & Özdemir, M., 2008. The influence of aggregate type on the strength and abrasion resistance of high strength concrete. Cement and Concrete Composites, 30(4), 290-296.
  29. Kılıç, A., & Teymen, A., 2008. Determination of mechanical properties of rocks using simple methods. Bulletin of Engineering Geology and the Environment, 67(2), 237-244.
  30. Kılıç, A., Atiş, C. D., Teymen, A., Karahan, O., & Arı, K., 2009. The effects of scoria and pumice aggregates on the strengths and unit weights of lightweight concrete. Sci. Res. Essays, 4(10), 961-965.
  31. Yasar, E., Tolgay, A., & Teymen, A.,2009. Industrial usage of Nevsehir-Kayseri (Turkey) tuff stone. World Appl Sci J, 7(3), 271-284.
  32. V.Deniz, S.Cayirli, and Y.Umucu, 2011. Investigation of the breakage beavior of different mineralogical and morphological characteristic pumice, Granular Matter, 13(5), 623–629.
  33. V.Deniz, Y.Umucu, and S.Cayirli, 2012. Estimation of the Bond grindability index from sink-float test data of two different paticulate pumice, Particulate Science and Technology, 30(5), 403-415.
  34. V.Deniz, Y.Umucu, and S.Cayirli, 2013. Prediction of the Bond grindability index from the sink-float test data of coal. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 35(15), 1385-1391.
  35. Y.Umucu, V.Deniz, and S.Cayirli, 2014. A new model for comminution behaviour of different coals in an impact crusher, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 36:(13), 1406–1413.
  36. H.S.Gokcen, S.Cayirli, Y.Ucbas, K.Kayaci, 2015. The effect of grinding aids on dry micro fine grinding of feldspar, International Journal of Mineral Processing, 136(SI), 42-44.




     
Son Güncelleme Tarihi:03.11.2023