Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Glass and ceramic industries are the main consumption areas of quartz sand, which is a formed as a result of the weathering of igneous metamorphic rocks. In such industries, it is very important to select the correct ball size in order to grind the raw material to the desired particle size in optimum time. In this study, the changes in the specific rate of breakage of the quartz sand sample were investigated by using cylpebs of three different sizes. For this purpose, three different mono-size samples were prepared according to 4√2 series in the range of 0.090-0.053 mm. The quartz sand prepared in these three intervals were ground with 10×10, 20×20 and 30×30 mm cylpebs for different durations. Specific rate of breakage values were obtained from the particle size distributions acquired after various grinding periods. As a result of grinding tests, an increase in rate of breakage is observed due to the increase in cylpebs diameter.
Wydawca
Czasopismo
Rocznik
Tom
Strony
625--634
Opis fizyczny
Bibliogr. 20 poz., tab., wykr.
Twórcy
autor
- Afyon Kocatepe University, Department of Industrial Product Design, Dinar Yerleşkesi, Cumhuriyet Mh. Kooperat if Cd. No: 1, Dinar, Afyonka rahisar, Turkey
Bibliografia
- [1] DPT, Madencilik özel ihtisas komisyonu raporu, endüstriyel hammaddeler alt komisyonu toprak sanayii hammaddeleri III . Devlet Planlama Teşkilatı, 2613 624, Ankara (2001).
- [2] SERH AM, Seramik, cam ve çimento hammaddeleri üreticileri derneği 2015-2017 dönemi faaliyet raporu, (2017).
- [3] N. Yıldız, Cevher Hazırlama ve Zenginleştirme, Ertem Basım Yayın Dağıtım, Ankara (2014).
- [4] S. Haner, The Effects of Ball Size on the Determination of Breakage Parameters of Nepheline Syenite. J. Min. Sci. 56 (5), 848-856 (2020). DOI : https://doi.org/10.1134/S1062739120057191.
- [5] K.S. Lidell, Machines for Fine Milling to Improve the Recovery of Gold from Calcines and Pyrite. Proceeding of the International Conference on Gold, Johannesburg 405-417 (1986).
- [6] J. Bouchard, G. LeBlanc, M. Levesque, P. Radziszewski, D. Georges-Filteau, Breaking down Energy Consumption in Industrial Grinding Mills. In Proceedings 49th Annual Canadian Mineral Processors Operators Conference, 25-35, Canadian Institute of Mining, Metallurgy and Petroleum (2017).
- [7] D.W. Fuerstenau, A.-Z.M. Abouzeid, The Energy Efficiency of Ball Milling in Comminution. Int. J. Miner. Process. 67 (1-4), 161-185 (2002). DOI : https://doi.org/10.1016/S0301-7516(02)00039-X.
- [8] A.K. Schellinger, A Calorimetric Method for Studying Grinding in a Tumbling Medium, Trans. AIME 190, 518- 522 (1951).
- [9] M. Vardar, E. Bozkurtoğlu, Yerkabuğunu Oluşturan Maddeler Mineraller ve Kayaçlar. İnşaat Jeolojisi, 2009-2010 Course Year Grades, 20 (2009).
- [10] L.G. Austin, K. Shoji, P.T. Luckie, The Effect of Ball Size on Mill Performance. Powder Technol. 14 (1), 71-79 (1976). DOI : https://doi.org/10.1016/0032-5910(76)80009-5.
- [11] F.C. Bond, Grinding Ball Size Selection. Trans. AIME , 592-595 (1958).
- [12] T.S. Yusupov, E.A. Kirillova, G.A. Denisov, Dressing of Quartz-Feldspar Ores on the Basis of Selective Grinding and Mechanical Activation. J. Min. Sci. 39, 174-177 (2003). DOI : https://doi.org/10.1023/B:JOMI.0000008464.34124.1d.
- [13] W.H. Coghill, F.D. Devaney, Ball Mill Grinding. (1937). https://play.google.com/books/reader?id = k4MbYBy8674C&hl = tr&pg = GBS.PP1,access:15.12.2019.
- [14] M. Wolosiewicz-Glab, D. Foszcz, T. Gawenda, S. Ogonowski, Design of an Electromagnetic Mill. Its Technological and Control System Structures for Dry Milling. E3S Web of Conferences: Mineral Engineering Conference (MEC 2016), Poland 8 01066 (2016).
- [15] K. Barani, H. Balochi, First-order and Second-order Breakage Rate of Coarse Particles in Ball mill Grinding. Physicochem. Probl. Miner. Process. 52 (1), 268-278 (2016). DOI : https://doi.org/10.5277/ppmp160123.
- [16] K. Barani, H. Balochi, A Comparative Study on the Effect of Using Conventional and High Pressure Grinding Rolls Crushing on the Ball Mill Grinding Kinetics of an Iron Ore. Physicochem. Probl. Miner. Process. 52 (2), 920-931 (2016). DOI : https://doi.org/10.5277/ppmp160231.
- [17] T.P. Olejnik, Grinding Kinetics of Granite Considering Morphology and Physical Properties of Grains. Physicochem. Probl. Miner. Process. 48 (1), 149-158 (2012).
- [18] L.G. Austin, R.R. Klimpel, P.T. Luckie, Process Engineering of Size Reduction: Ball Milling, American Institute of Mining Metallurgical and Petroleum Engineers Inc., New York, United States of America (1984).
- [19] L.G. Austin, R. Bagga, M. Çelik, Breakage Properties of Some Materials in a Laboratory Ball Mill. Powder Technol. 28 (2), 235-241 (1981). DOI : https://doi.org/10.1016/0032-5910(81)87049-0.
- [20] K. Shoji, L.G. Austin, F. Smaila, K. Brame, P.T. Luckie, Further Studies of Ball and Powder Filling Effects in Ball Milling. Powder Technol. 31 (1), 121-126 (1982). DOI : https://doi.org/10.1016/0032-5910(82)80013-2.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ac6012a4-7375-4935-988d-d7417089dbcf