1. Thus, many researches have been performed on ferromanganese slag for recycling.
对锰铁合金渣进行处理,变废为宝,已经成为重要的研究课题。
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2. Guimeng, electric, chromium manganese, ferro-alloys such as ferromanganese products.
硅锰、硅铁、铬锰、锰铁等铁合金产品。
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3. The utilization of water quenched slag from ferromanganese blast furnace is discussed.
深入地探讨了锰铁高炉水淬矿渣的利用。
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4. Ferromanganese, Ferromanganese-Silicon and manganese; Technical Conditions of Delivery.
锰铁。锰铁硅和锰。交货技术条件。
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5. Guimeng alloys, an electric high-carbon, ferromanganese, low ferromanganese smelting sales.
硅锰合金、电炉高碳、锰铁、低度锰铁冶炼销售。
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6. The practice of smelting ferromanganese silicon with slag of high carbon ferrochrome is introduced.
介绍了用高碳铬铁渣做造渣剂冶炼锰硅合金的生产实践。
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7. An alloy of ferromanganese is added to the molten metal as it is poured from the converter into the ladle.
人们在钢水轻炉倒进钢水桶时,放进一些锰铁合金。
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8. The practice of smelting high silicon ferromanganese silicon in 9MVA closed electric furnace is expounded.
阐述了在9MVA封闭电炉上冶炼高硅锰硅合金的实践。
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9. Ferromanganese nodules (crusts) formed under different genetic conditions uptake different transition metals.
在不同生成环境下生成的铁锰结核(壳)吸收不同的过渡金属元素。
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10. This paper analyzes the characteristic of burden distribution in ferromanganese BF at Xiangtan manganese Mine.
本文分析了我矿锰铁高炉的炉料分布特征。
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11. It discusses the advantage and disadvantage of the reactive compensation mode of ferromanganese-silicon furnace.
论述了锰硅电炉无功补偿方式的优缺点,开发了锰硅电炉低压无功补偿集散控制系统。
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12. It introduces the problems and its solution measures on producing medium carbon ferromanganese by means of anode slag.
介绍了精炼电炉在利用阳极渣进行中碳锰铁生产实践中出现的问题及解决办法。
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13. Grindability experiments for the manganese slag and the off gas ash from ferromanganese alloy factory were carried out.
对锰铁合金生产过程中产生的锰渣和烟道灰进行了粉磨性能试验。
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14. This experimentation is to produce low phosphorus medium carbon ferromanganese with resettled silicon-manganese powder.
介绍了用精整锰硅粉生产低磷中碳锰铁的实验。
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15. Ferromanganese slag has the latent hydraulicity and volcanic ash, it can be used to build concrete admixtures and cement.
锰铁合金渣具有潜在的水硬性和火山灰性,可用作混凝土掺合料和水泥混合材料。
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16. The low voltage reactive compensation collector-distributor control system in ferromanganese-silicon furnace is developed.
论述了锰硅电炉无功补偿方式的优缺点,开发了锰硅电炉低压无功补偿集散控制系统。
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17. The effect of smelting parameters of a ferromanganese blast furnace on evaporated cooling is analyzed by mathematical statistics.
本文用数理统计的方法分析了锰铁高炉冶炼参数对汽化冷却的影响。
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18. Replacing MC ferromanganese slag with magnesite in manganese-silicon production, adjusting slag type to assure regular production.
在锰硅合金生产中,用菱镁石取代中碳锰铁渣,以调整渣型,保证生产运行。
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19. Along with the improvement of middle and low carbon-ferromanganese is still used in producing middle and low carbon-ferromanganese.
随著中低碳锰铁生产工艺的进步,高碳锰铁还可以用于生产中低碳锰铁。
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20. The thermodynamics calculation showed the feasibility of solid state decarbonization of high carbon ferromanganese under CO_2 atmosphere.
热力学计算表明了在二氧化碳气氛下高碳锰铁固态脱碳的可行性。
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21. The paper introduces the state of sulphur content changing in accordance with raw material's when production furnace ferromanganese-silicon.
介绍了电炉生产锰硅合金时,合金中硫含量随所用原料硫含量变化的情况。
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22. It is proved by many years practice that ferromanganese blast furnace applying dry bag dust collecting can obtain the result of energy saving.
多年来的实践证明,锰铁高炉采用干法滤袋除尘,能取得很好的节能效果。
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23. This paper precent how the Bayi manganese Mine to optimize the burden composition of the ferromanganese BF, resulting to improve production situation.
24. The solid phase decarbonization of high carbon ferromanganese has been the research hotspot because of avoiding evaporation loss of manganese at high temperature.
高碳锰铁的固相脱碳由于能够避免金属锰的高温挥发损失而成为研究的热点。
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25. The factors of affection to increase output of ferromanganese is analyzed, it points out measures to increase output of ferromanganese combining with the practical production.
分析了影响锰铁产量的因素,结合实际生产情况,指出了提高锰铁产量的措施。
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26. Therefore, it is suggested that the bacteria in sediments might have played an important role in the formation and growth of ferromanganese nodules of the North Pacific Ocean.
因而提出细菌在太平洋铁锰结核生长及形成过程中起了重要作用。
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27. We attempt to recover the paleoenvironments recorded in the accretion of a typical new-type hydrogenetic ferromanganese crust from the deep water areas of the East Philippine Sea.
尝试恢复东菲律宾海新型深水水成富铁锰结壳典型样品生长过程中所记录的古海洋环境。
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28. Our main products include ferroalloys like ferro-phosphorus, ferro-phosphorus micro-powder (ferrous phosphide micro-powder), ferrotitanium micro-powder, ferrosilicon and ferromanganese.
我公司主要产品为磷铁、磷铁微粉(又名磷化铁微粉)、钛铁微粉、硅铁、锰铁等铁合金。
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29. The activity of blast furnace ferromanganese slag has relationship with its chemical composition, the content of vitreous body, the complete degree of new generated crystals and fineness.
高炉锰铁矿渣的活性与其化学组成、玻璃体含量、新生成的晶体完整程度及细度有关。
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30. The causes of producing fine during ferromanganese-silicon cooling and crushing is analyzed. The measures and methods are put forward to prevent and reduce degradation index during crushing.