本发明是属于耐火材料,主要用于氧气转炉炼钢。
The present invention relates to refractory material for oxygen and making in converter.
在LD转炉炼钢取代了平炉炼钢的主导地位后,而今氧气转炉炼钢又面临电炉炼钢的竞争与挑战。
After taken the leading place of open-health furnace, oxygen LD converter is being faced with the challenge and competition of electric arc furnace.
对比了包头钢铁(集团)公司炼钢厂80t顶底复合吹炼转炉和顶吹氧气转炉的冶金效果。
The metallurgical effects of 80 t top blowing and combined blowing oxygen converters at Baotou Iron and Steel Co have been investigated.
分析了氧气顶吹转炉炼钢的氧气需求量与所配套空分设备氧气供应量之间的不均衡关系;
The imbalance between oxygen requirement from Linz-Donawitz process steel-making system and oxygen supply of supporting air separation unit is analyzed.
应用这个相图,可以在氧气顶吹转炉炼钢生产中,对白云石的加入量和加入时间以及炉渣的岩相检验具有重要的参考意义。
Application of this diagram to the BOF process may help in the selection of the amount and time of dolomite addition as well as in the petrographical examination of BOF slags.
这就是氧气顶吹转炉炼钢法(LD炼钢法)。这种方法使用氧气来氧化铁水中的杂质。
This was the LD process, which used oxygen gas for the oxidation of impurities in iron.
同时,将炼钢的终点温度和终点碳含量作为控制目标,计算氧气的补吹量和冷却剂的补入量,实现转炉炼钢的终点控制。
Taking endpoint temperature and endpoint carbon content as control target, oxygen-blown volume and added coolant were calculated, then endpoint control of convert steelmaking was realized.
同时,将炼钢的终点温度和终点碳含量作为控制目标,计算氧气的补吹量和冷却剂的补入量,实现转炉炼钢的终点控制。
Taking endpoint temperature and endpoint carbon content as control target, oxygen-blown volume and added coolant were calculated, then endpoint control of convert steelmaking was realized.
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