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Solid-phase Decarburization Kinetics of High-carbon Ferromanganese Powders by Microwave Heating |
Li-na GUO,Jin CHEN,Jing ZHAO,Wan-ming LIN,Wen-li SHI,Min LIANG |
College of Materials Science and Engineering, Taiyuan University of Technology, Taiyuan 030024, Shanxi, China |
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Abstract Solid-phase decarburization of high-carbon ferromanganese powders (HCFPs) was conducted using calcium carbonate powders (CCPs) as a decarburizer by microwave heating. Solid-phase decarburization kinetics was investigated by isothermal method. The results show that the HCFPs show excellent microwave absorption at a higher average heating rate of 80 ��/min, while CCPs exhibit poor microwave absorption at a lower heating rate of 5-20 ��/min; the heating characteristics are in-between when HCFPs and CCPs are mixed. The average heating rates of the mixture are 32.14, 31.25, 31.43, and 30.77 ��/min when the mixture is heated up to 900, 1000, 1100, and 1200 ��, respectively. The good microwave absorption property of the mixed material lays the foundation for the solid-phase decarburization of HCFPs containing CCPs. Solid-phase decarburization of HCFPs containing CCPs is a first-order reaction by microwave heating. Apparent activation energy of solid-phase decarburization is 55.07 kJ/mol, which is far less than that of ordinary carbon gasification reaction and that of solid-phase decarburization under the same decarburization condition by conventional heating. It indicates that microwave heating not only produces thermal effect, but also has non-thermal effect.
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Received: 24 September 2013
Published: 13 April 2015
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Fund:National Outstanding Youth Science Foundation of China |
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