1) high manganese ferromanganese-silicon
高锰锰硅合金
2) high-silicon silicomanganese
高硅锰硅合金
1.
It introduces the technology of producing clean high-silicon silicomanganese.
介绍了纯净高硅锰硅合金的生产工艺,即要有优质的原料、较高的炉温、合适的炉渣碱度和正确的冶炼操作方法。
3) silicon-manganese alloy
硅锰合金
1.
Rapid analysis of silicon,phosphorus and manganese contents in silicon-manganese alloy;
硅锰合金中硅、磷、锰的快速分析
2.
Dissolving sample with nitric acid and hydrofluoric acid,the silicon content of silicon-manganese alloy was made a measurement with ICP-AES method in the hydrofluoric acid-resistant spray devices.
用硝酸和氢氟酸溶解试样,采用耐氢氟酸雾化装置,用ICP-AES法测定硅锰合金中的硅。
4) MnSi alloy
硅锰合金
1.
Experimental research on cold bonding briquette of MnSi alloy powder with adding manganese ore fines;
硅锰合金粉料添加富锰矿粉冷固结压块试验研究
2.
An experimental research on the cold bonding briquette of MnSi alloy powder materials by using different kinds of adhesives is carried out.
通过使用不同的粘结剂对硅锰合金粉料进行冷固结压块的试验,确定了最佳的硅锰铁压块配料方案,使原本难以再利用的硅锰合金粉料压成符合炼钢要求的成品块,在低成本的条件下为硅锰合金粉料这种二次资源以及其他类似资源的合理再利用找到了新的途径。
5) ferromanganese-silicon
锰硅合金
1.
It introduces the ideas of determining the craft restriction parameters firstly,and then calculating the burdening proportion,in order to optimize manganese ore mixture during the process of ferromanganese-silicon production.
介绍了在锰硅合金生产中,入炉锰矿的优化搭配采取先确定工艺参数后计算配比的配料计算思路,以及利用穷举法求解非线性函数的计算机软件实现过程。
2.
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。
3.
It analyses the behavior of remained ferroalloy in smelting process, proves that taking use of remained ferroalloy process notonly can greatly improve technological economic indexes in smelting high carbon ferromanganese and ferromanganese-silicon, but also can raise the productivity of furnace.
通过留铁法在冶炼过程中的行为实践分析,证明留铁法冶炼高碳锰铁和锰硅合金不仅大大地改善了技术 经济指标,而且提高了电炉的生产能力。
6) silicomanganese
[,silikəu'mæŋɡəni:s]
锰硅合金
1.
It introduces the production control of low phosphorus and low carbon high silicon silicomanganese and the measures and crafts requirement of decreasing phosphorus and carbon.
论述了低磷低碳高硅锰硅合金的生产控制和降磷降碳措施以及工艺要求。
2.
Silicochrome furnace can be transferred to produce silicomanganese.
通过对硅铬电炉和锰硅电炉参数、冶炼原理的分析,以及正确的生产过程控制,硅铬电炉在不改变参数的情况下,可以转产锰硅合金,技术指标较好。
3.
Due to the technical reformation and enlarging the smelting intensity, the set of 30MVA silicon-manganese submerged arc furnace and the dry gas cleaning system has increased the output of silicomanganese, thus, the gas maximum temperature has risen from 650℃to 950℃, and the gas volume has increased by 80%.
30 MVA锰硅矿热炉及其煤气干式净化系统由于技术改造增大冶炼强度提高了锰硅合金的产量,导致煤气最高温度从原设计的650℃提高到950℃,煤气量增加了80%。
补充资料:硅锰用途
硅锰合金主要是作为钢铁生产的脱氧剂和合金剂的中间料,同时也是中低碳锰铁生产的主要原料。
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