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    [6]    R.K. Sahoo, D.M. Weedon, D. Roach, Single-particle breakage tests of Gladstone Port Authority’s coal by a twin pendulum apparatus, Adv. Powder Technol. 15 (2004) 263–280.
    [7]    L.M. Tavares, R.P. King, Single-particle fracture under impact loading, Int. J. Min. Process. 54 (1998) 1–28.
    [8]    R. Schuhmann Jr., Energy input and size distribution in comminution, Trans. SME/AIME 217 (1960) 22–25.
    [9]    M.D. Flavell, H.W. Rimmer, Particle breakage studies in an impact-crushing environment, in: Proc. Trans. Annual Meet, Chicago, IL, 1981, pp. 21–28.
    [10]    L.M. Tavares, Energy absorbed in breakage of single particles in drop weight testing, Miner. Eng. 12 (1999) 43–50.
    [11]    L.M. Tavares, R.M. Carvalho, Impact work index prediction from continuum damage model of particle fracture, Miner. Eng. 20 (2007) 1368–1375.
    [12]    S.W. Kingman, K. Jackson, A. Cumbane, S.M. Bradshaw, N.A. Rowson, R. Greenwood, Recent developments in microwave in microwave-assisted comminution, Int. J. Miner. Process. 74 (2004) 71–83.
    [13]    Ö. Genç, A.H. Benzer, Single particle impact breakage characteristics of clinkers related to mineral composition and grindability, Miner. Eng. 22 (2009) 1160– 1165.
    [14]    S.S. Narayanan, Single particle breakage tests: a review of principles and application to comminution modeling, Bull. Proc. Austr. Inst. Min. Metall. 291 (1986) 49–58.
    [15]    S.S. Narayanan, W.J. Whiten, Determination of comminution characteristics from single particle breakage tests and its application to ball mill scale-up, Trans. Inst. Min. Metall. (Sec. C). 97 (1988) 115–124.
    [16]    G.W. Sand, G.K.N. Subasinghe, A novel approach to evaluating breakage parameters and modelling batch grinding, Miner. Eng. 17 (2004) 1111–1116.
    [17]    F.C. Bond, W.L. Maxson, Standard grindability tests and calculations, Trans. SME-AIME 153 (1943) 362–372.
    [18]    R.F. Yap, J.L. Sepulude, R. Jauregui, Determination of the Bond work index using an ordinary laboratory batch ball mill, in: Design and Installation of Comminution Circuits: , Soc. Min. Eng. AIME, USA, 1982, pp. 176–203.
    [19]    N. Magdalinovic, A procedure for rapid determination of the Bond work index, Int. J. Miner. Process. 27 (1989) 125–132.
    [20]    V. Deniz, G. Balta, A. Yamık, The interrelationships between Bond grindability of coals and impact strength index (ISI), point load index (Is) and Friability index (FD), in: Changing Scopes in Mineral Processing, A.A. Balkema, Roterdam, 1996, pp. 15–19.
    [21]    V. Deniz, A study on the specific rate of breakage of cement materials in a laboratory ball mill, Cem. Concr. Res. 33 (2003) 439–445.
    [22]    V. Deniz, H. Özdag˘, A new approach to Bond grindability and work index: dynamic elastic parameters, Miner. Eng. 16 (2003) 211–217.
    [23]    V. Deniz, Relation between Bond’s grindability (Gbg) and breakage parameters of grinding kinetic on limestone, Powder Technol. 139 (2004) 208–213.
    [24]    V. Deniz, Y. Umucu, Interrelationships between the Bond grindability with physicomechanical and chemical properties of coals, Energy Sour. (Part A), 2011, in press, doi:1080/15567036.2010.504942.
    通过T-曲线族新的大小分布模型灰岩粉碎在冲击式破碎机
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