1) iron ore
铁矿粉
1.
Self-intensity of binding phase in iron ores during sintering;
铁矿粉烧结粘结相自身强度特性
2.
Fluidity of liquid phase in iron ores during sintering;
铁矿粉烧结液相流动特性
3.
Evaluation on liquid phase fluidity of iron ore in sintering;
铁矿粉烧结液相流动性评价
2) iron ore powder
铁矿粉
1.
Physical and chemical properties of iron ore powder and carbon powder with mechanical impact are studied.
研究了机械力作用下铁矿粉与碳粉的物理化学性能的变化规律。
2.
Energy storing mechanism and thermodynamics of reduction of mechanically milled iron ore powder were studied.
研究了机械力作用下铁矿粉储能的变化规律和还原热力学。
3.
A series of friction and wear tests were performed on an MG-200 high temperature and high speed test rig to investigate the effect of barite and iron ore powder doped in the drilling mud on the friction and wear behavior of a casing/drill-pipe pair.
利用MG-200型高温高速摩擦磨损试验机对比考察了钻井液中所含的重晶石和铁矿粉对套管和钻杆试件摩擦学性能的影响,并采用扫描电子显微镜观察分析了磨损表面形貌,探讨了其磨损机理。
3) fine iron ore
铁矿粉
1.
In this paper , the conveying process of pulverized coal mixed with 4 %~20 % fine iron ore has been investigated for BF injection.
研究了在高炉喷吹煤粉中加入4%~20%铁矿粉的输送工艺。
2.
The results obtained from a industrial test by the injection of fine iron ore into a blast furnace (1050 m 3) have been studied.
对鞍钢1050m3高炉喷吹铁矿粉的工业性试验结果进行了分析。
3.
Thermal decomposition and reduction behaviors of fine iron ore are studied under falling-down conditions accompanied with a hot gas flow.
为研究伴随高温气流下落过程中铁矿粉的热分解和还原行为的规律,在气粉两相流运动方程基础上,联立热分解、还原反应的动力学方程,以及气流、粉粒和炉壁之间的传热方程,建立了该过程的一维数学模型,应用计算机求解数学模型,求得各种条件下的出口反应率均与实测值符合很好,证明了本模型的适用性,进一步应用该模型研究了气体流量、组成、炉温及粉矿、粒度等实验条件对粉矿的停留时间、升降温曲线及反应行为的影响,从理论上解释了不同实验条件下的实验结果。
5) iron ore fine
铁矿粉
1.
By optimal designing of experiments,according to the raw material conditions at Ansteel,the sintering pot tests of iron ore fines blended with imported ore fines containing medium crystal water were done in the lab.
根据鞍钢原料条件采用最优试验设计方法,在实验室条件下进行了烧结配加含中等程度结晶水的铁矿粉烧结实验,研究了该粉矿配比对烧结主要技术经济指标的影响。
6) magnetite powder
磁铁矿粉
1.
This paper introduces the components of the magnetite and the application and standard of the magnetite powder in the heavy medium coal washing,and probes into the management and control of the medium consumption in the heavy medium coal washing from three aspects of the quality of medium,the management loss and the technical loss.
介绍了磁铁矿的组成及重介洗煤中磁铁矿粉的使用情况与标准,从介质质量、管理损失、技术损失3个方面探讨了重介洗煤中的对介耗的管理和控制。
2.
When the Fe content in SA cinder from pyrite raw material is as high as to 60%,magnetite powder,additive and the above-mentioned powdered cinder can be mixed into production of oxidized agglomerate for iron production.
研究结果表明,如果硫酸烧渣中铁含量达约60%,经几十分钟细磨后,和磁铁矿粉、添加剂混合后可满足生产氧化球团的原料要求;细磨硫酸烧渣比例<65%时,其造粒球团的各项指标能达竖炉和高炉的生产要求。
3.
0 kg/t of raw coal while magnetite powder losses in tailings from magnetic separation is up to 2.
通过对月亮田矿重介质选煤厂最终产品带介损耗和磁选尾矿流失介耗考查,以及试验室模拟磁选试验研究表明:在正常情况下,筛上产品带介损耗较低,一般不超过1 0kg/t原煤,磁选矿尾矿流失的磁铁矿粉却高达2 65kg/t原煤,其中-5μm的回收效果最差,粒级回收率仅有80%,而+5μm各粒级回收率均高达99%。
补充资料:赤铁矿,红铁矿
分子式:
分子量:
CAS号:
密度:5.0~5.3
性状:三方晶系,晶体呈菱面体或板状体。
用途:用于冶炼钢铁。
分子量:
CAS号:
密度:5.0~5.3
性状:三方晶系,晶体呈菱面体或板状体。
用途:用于冶炼钢铁。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条