Theory and Applications of Microwave Energy in Communition

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Key Engineering Materials (Volumes 264-268)

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Hasan Mandal and Lütfi Öveçoglu

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1399-1402

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T. Batar, "Theory and Applications of Microwave Energy in Communition", Key Engineering Materials, Vols. 264-268, pp. 1399-1402, 2004

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May 2004

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[1] Walkiewicz, J. W., Kazaonich, G. & McGill, S. L.; Microwave Heating Characteristics of Selected Minerals and Compounds, Minerals & Metallurgical Processing, pp.39-42, February, (1988).

[2] Scott A. Shuey., Microwaves In Mining Engineering & Mining Journal, Feb 1, (2002).

[3] Walkiewicz, J. W., Clark, A. E. & McGill, S. L., Microwave-Assisted Grind, IEEE Transactions on Industry Applications, Vol. 27, No. 2, March/April, pp.239-243, (1991).

DOI: https://doi.org/10.1109/28.73604

[4] Bradhurst, D. H. & Worner, H. K.; The Applications of Microwave Energy in Mineral Processing and Pyrometallurgy in Australia, Vol. 123, No. 2, pp.194-197, (1990).

[5] Lytle, J., Choi, N. & Prisbrey, K.; Influence of Preheating on Grindability of Coal, International Journal of Mineral Processing, 36 (1992), pp.107-112.

DOI: https://doi.org/10.1016/0301-7516(92)90067-7

[6] Haque, K. E.; Microwave Energy for Mineral Treatment Process, International Journal of Mineral Processing, 57 (1999), pp.1-24.

[7] Wills, B. A., Parker, R. H. & Binns, D. G.; Thermally Assisted Liberation of Cassiterite, Minerals & Metallurgical Processing, Technical Note, pp.94-96, May, (1987).

[8] McGill, S.L. & Walkiewicz, J. W.; Applications of Microwave Energy in Extractive Metallurgy, J. Microwave Power E2, pp.175-177, (1987).

[9] Huang, J. H. & Rowson, N. A.; Heating Characteristics and Decomposition of Pyrite and Marcasite in A Microwave Field, Minerals Engineering, Vol. 14, No. 9, pp.1113-1117, (2001).

DOI: https://doi.org/10.1016/s0892-6875(01)00117-0

[10] Harrison, P. C. & Rowson, N. A.; A Fundamental Study of The Heating Effect of 2. 45GHz Microwave Radiation on Minerals, First European Conference, The 1995 Icheme Research Event.

[11] McGill, S.L. & Walkiewicz, J. W. & Smyres, G. A.; The Effects of Power Level on The Microwave Heating of Selected Chemicals and Minerals, Materials Research Society Symposium, Volume 124, pp.247-252, Reno, Nevada, U.S.A., April 5-8, (1988).

DOI: https://doi.org/10.1557/proc-124-247

[12] Application of Microwave Energy to Enhance Milling Project, Phelps Dodge Mining Company Technical Memorandum, (2000).

[13] Kingman S.W. & Rowson, N. A.; Microwave Treatment of Minerals, Minerals Engineering, Vol. 11, No. 11, pp.1081-1087, (2001).

DOI: https://doi.org/10.1016/s0892-6875(98)00094-6

[14] Wills, B. A., Parker, R. H. & Binns, D. G.; Thermally Assisted Liberation of Cassiterite, Minerals & Metallurgical Processing, Technical Note, pp.94-96, May, (1987).

[15] Vorster, W., Rowson, N. A. & Kingman, S. W.; The Effect of Microwave Radiation Upon The Processing of Neves Corvo Copper Ore, International Journal of Mineral Processing, 63 (2001) pp.29-44.

DOI: https://doi.org/10.1016/s0301-7516(00)00069-7

[16] Salsman, J. B., Williamson, R. L., Tolley, W. K. & Rice, D. A.; Short-Pulse Microwave Treatment of Disseminated Sulfide Ores, Minerals Engineering, Vol. 9, No. 11, pp.43-54, (1996).

DOI: https://doi.org/10.1016/0892-6875(95)00130-1

[17] Daellenbach, C. B., Vik, R. A. & Mahan, W. M.; Influence of Reduction and Thermal Shock on Nonmagnetic Taconite Grindability, Society of Mining Engineers, AIME, TransactionsVolume 250, pp.212-217, (1971).