Microwave Heating in Iron Ore Magnetization Roasting the Current Status

Ben Jun Xu; Kun Chen; Cai Juan Huang

doi:10.4028/www.scientific.net/AMM.303-306.2611

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Microwave Heating in Iron Ore Magnetization Roasting the Current Status
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 303-306Microwave Heating in Iron Ore Magnetization...

Microwave Heating in Iron Ore Magnetization Roasting the Current Status

Abstract:

This template explains the principle of microwave heating and iron ore magnetization roasting principle. Moreover，it summary analysis microwave heating in the use of iron ore magnetization roasting and points out that we should strengthen the study on microwave heating mechanism.

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Periodical:

Applied Mechanics and Materials (Volumes 303-306)

Pages:

2611-2615

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.303-306.2611

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Online since:

February 2013

Authors:

Ben Jun Xu, Kun Chen, Cai Juan Huang

Keywords:

Iron Ore, Magnetization Roasting, Microwave Heating

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References

[1] Yongfu Yu . Effective Utilization and Processing Development Direction of China's Iron Ore Resources . Metal Mine(in china)[J], 2001(2): 9～ 11.

Google Scholar

[2] Yafeng Ren , Yongfu Yu . Refractory Red Iron the Magnetic Roasting Technology Status and Development Direction[J]. 2005(11): 20～23.

Google Scholar

[3] Bolun Yang , Yongjun He . Microwave Heating Applications in the Chemical Reaction Progress. Modern Chemical Industry[J]. 2011（4）: 8～12.

Google Scholar

[4] Jinhui Peng, etc. Status quo and development trend of high-temperature microwave metallurgy reactor in research. Chinese Journal of Nonferrous Metals[J]. 2011（10）: 2607～2615.

Google Scholar

[5] Zhou Yang , DUAN Jie-li. Development of drying microwave[J]. Machinery for Cereals, Oil and Food Processing, 2000(3): 57.

Google Scholar

[6] Thostenson E T, Chou T W. Microwave Processing: Fundamentals a Applications[J]. Composites: Part A, 1999, 30(9): 1055～1071.

DOI: 10.1016/s1359-835x(99)00020-2

Google Scholar

[7] Clark D, Folz D, West J. Processing Materials with Microwave Ener[J]. MaterialsScienceand Engineering: A, 2000, 287(2): 153～158.

Google Scholar

[8] Xie Li , Bangwen Zhang . Bayan Obo in Lean Oxide Ore Microwave Magnetic Roasting Magnetic Separation Test Study. The Metal Mining[J] . 2004 (5) . 89～91.

Google Scholar

[9] XiaoHui Wang, JinHui Peng. Yunnan Iron Ore Microwave Magnetization Roasting Technology. Journal of Central South University (Natural Science Edition)[J]. 2012. 43(6). 2043～(2047).

Google Scholar

[10] Bin Chen , Lingyun Yi, Hu Peng. A Limonite Microwave Magnetization Roasting - Weak Magnetic Separation Test[J]. Metal mine. 2011(6). 71～77.

Google Scholar

[11] Jiankui Chen. Concrete Admixture Principle and Application [M]. Beijing: China Plans Press.

Google Scholar