LIU Chunpeng XU Yousheng HUA Yixin Kunming Institute of Technology
,
Kunming
,
650093
,
China.
材料科学技术(英文)
In applying the microwave radiation to extractive me- tallurgy,it is essential first of all to find the extent of microwave energy absorbed by various minerals experi- mentally.In this paper,more than 25 kinds of common useful minerals have been individually irradiated by a 500 W,2450 MHz microwave source in an enclosed quartz crucible to ascertain their heating temperature in a definite time.In addition,the reduction and cbloridization tests were also carried out on the titanomagnetite concentrate and pentlandite with microwave heating,respectively. These experiments indicate potential applications of util- izing microwave energy in extractive metallurgy.
关键词:
microwave radiation
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null
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null
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吴恩辉
,
朱荣
,
杨绍利
,
李宏
,
李军
,
侯静
钢铁钒钛
doi:10.7513/j.issn.1004-7638.2016.01.010
以钒钛铁精矿和煤粉为原料,在空气气氛下通过碳热还原法制备Fe-Ti(C,N)复合粉末.通过还原产物X射线衍射分析,对空气气氛下还原温度和配碳量对钒钛铁精矿碳热还原的反应过程以及物相演变进行了研究.结果表明,随着温度的升高,反应过程中的物相演变过程为:Fe3O4→Fe,FeTiO3→FeTi2O5→Ti4O7→Ti2O3→Ti(C,N),配碳量是使反应体系处于气相平衡的关键因素.在配碳量<25%时,体系内CO、CO2和N2的分压不能达到平衡或维持反应平衡的时间很短,钒钛铁精矿不能被还原或只能部分被还原为Ti(c,N).在还原温度1 500℃,还原时间30 min,配碳量30%的条件下,还原产物中TiC1-xNx的颗粒尺寸约为3μm,TiC1-xNx的C/N值为0.491 5,x=0.67.
关键词:
复合材料
,
Fe-Ti(C,N)
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钒钛铁精矿
,
碳热还原
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配碳量
