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冲击式破碎机英文文献和中文翻译(5)

时间:2019-04-30 22:20来源:毕业论文
[6] R.K. Sahoo, D.M. Weedon, D. Roach, Single-particle breakage tests of Gladstone Port Authoritys coal by a twin pendulum apparatus, Adv. Powder Technol. 15 (2004) 263280. [7] L.M. Tavares, R.P. King


[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
撞击引发的岩石碎片化相关的许多网络视场科学和技术。影响钢厂中已应用矿产,煤炭,水泥,化工等行业很长一段时间。文献表明,大量的努力,已花费在理解相对于机器的冲击磨性能 并通过实验操作条件工作和数学模型。然而,由于缺乏德的碰撞的速度和能量分尾知识内室,该机制还不清楚[1]。邦德测试一直以来INUSE 20年代末;实验室和世界各地的操作中使用的过程作为一个组成部分粉碎的电路设计以及植物performance.In尽管这种长期使用,准确的话题和评价在精确测定DEX债券工作与复发的GRE频昆西[2]。35046 冲击式破碎机英文文献和中文翻译(5):http://www.751com.cn/fanyi/lunwen_32826.html
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