中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2014年
6期
1616-1622
,共7页
刘旭恒%陈星宇%赵中伟%马飞
劉旭恆%陳星宇%趙中偉%馬飛
류욱항%진성우%조중위%마비
辉钼矿%冰铜%造锍%吹炼
輝鉬礦%冰銅%造锍%吹煉
휘목광%빙동%조류%취련
molybdenite%copper matte%matte smelting%converting
利用重金属冶金中的熔炼技术,采用辉钼矿与白冰铜造锍熔炼、富氧吹炼使钼氧化挥发的新方法,实现辉钼矿中钼的提取,研究造锍过程中白冰铜溶解辉钼矿的行为以及物料配比、吹炼温度和空气流量等因素对MoO3挥发率的影响。结果表明:当冰铜与辉钼矿的质量比不低于12:5、吹炼温度不低于1150℃时,辉钼矿能完全溶解到白冰铜中形成共熔体;优化后的吹炼条件如下:按白冰铜与辉钼矿的质量比为150:30配料混合均匀,将混合物在1300℃下保温5 h,再以10 L/h的气流量吹炼1 h,MoO3的挥发率达到70.79%。
利用重金屬冶金中的鎔煉技術,採用輝鉬礦與白冰銅造锍鎔煉、富氧吹煉使鉬氧化揮髮的新方法,實現輝鉬礦中鉬的提取,研究造锍過程中白冰銅溶解輝鉬礦的行為以及物料配比、吹煉溫度和空氣流量等因素對MoO3揮髮率的影響。結果錶明:噹冰銅與輝鉬礦的質量比不低于12:5、吹煉溫度不低于1150℃時,輝鉬礦能完全溶解到白冰銅中形成共鎔體;優化後的吹煉條件如下:按白冰銅與輝鉬礦的質量比為150:30配料混閤均勻,將混閤物在1300℃下保溫5 h,再以10 L/h的氣流量吹煉1 h,MoO3的揮髮率達到70.79%。
이용중금속야금중적용련기술,채용휘목광여백빙동조류용련、부양취련사목양화휘발적신방법,실현휘목광중목적제취,연구조류과정중백빙동용해휘목광적행위이급물료배비、취련온도화공기류량등인소대MoO3휘발솔적영향。결과표명:당빙동여휘목광적질량비불저우12:5、취련온도불저우1150℃시,휘목광능완전용해도백빙동중형성공용체;우화후적취련조건여하:안백빙동여휘목광적질량비위150:30배료혼합균균,장혼합물재1300℃하보온5 h,재이10 L/h적기류량취련1 h,MoO3적휘발솔체도70.79%。
A novel method of recovering molybdenum directly from gas phase was proposed. A smelting and converting process was put forward based on the new idea, during which molybdenite dissolved in white copper matte and was extracted from the copper molybdenum matte after its oxidization and volatilization. The behavior of molybdenite dissolution in copper matte and the effects of mixture ratio, smelting temperature and air flow were investigated. The results show that molybdenite can be digested completely into copper matte when m(copper matte)/m(molybdenite) is not less than 12:5 (mass ratio) and smelting temperature is above 1150℃. The optimum converting condition is determined as follows:The matte smelting was carried out at 1300℃for 5 h when the mixture ratio of copper matte to molybdenite is 150:30, and then the air was blown into the melt with air flow of 10 L/h at 1300℃for 1 h. The evaporation rate of MoO3 from the molybdenite is up to 70.79%under the optimum condition.