1.
Design and Application of Controlling System for SiC Furnace;
碳化硅冶炼炉自动控制系统的研制与应用
2.
Research on safe experiment and strategies during tail gas recovery of SiC sythesis furnace
碳化硅冶炼炉尾气回收安全实验及对策研究
3.
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。
4.
Controlling Steel Carbon Research for Convertor Steelmaking Low-carbon Aluminium Steel
转炉冶炼低碳铝镇静钢控制碳的研究
5.
This paper describes the experiments of making medium carbon ferromangan- ese by “low basicity process” using import manganese ore.
本文介绍了用低碱度法代替传统电硅热法,使用进口锰矿冶炼中碳锰铁的试验情况。
6.
Experimental Study on Increasing Si and C Using the Waste Material of Graphite Electrode during Metallurgical Melting Process;
冶金熔化过程中利用电极烧结废料增硅增碳的实验研究
7.
PRACTICE OF SMELTING 75% FERROSILICON WITH SHENMU LOW-TEMPERATURB COKE
使用低温神木焦冶炼75%硅铁的实践
8.
Discussion During Casting low Si Steel in LF Furnance
LF炉冶炼低硅品种钢生产实践探讨
9.
EXPERIMENTS ON SUBSTITUTION OF STEEL CHIP BY HIGH Si LOW GRADE IRON ORE IN SILICON STEEL MAKING
用高硅低品位铁矿石代钢屑冶炼硅铁试验
10.
Control of Phosphorus Content at Smelting High-medium Carbon Steel Process in LBE
复吹转炉冶炼中高碳钢脱磷过程控制
11.
The Control of Decarburization and Denitrogenization VOD Process in Smelting of Ferritic Stainless Steel
VOD法冶炼铁素体不锈钢的碳氮控制
12.
Low carbon steel production with BOF slag-remaining practice
转炉冶炼低碳钢留渣操作的生产实践
13.
The present paper analyzes the difficult points in refining the high carbon steel by converter and describes its operating essentials, which include good control of the carbon temperature and properly slagging for dephosphorization purpose.
分析了转炉冶炼高碳钢的难点,探讨了转炉冶炼高碳钢的操作要点:控制好碳温、好造渣脱磷操作。
14.
pyrolytic carbon silicon carbide mixture
热解碳 碳化硅混合物
15.
Impact of Small-type Ferrosilicon Alloy Smelting on Workers Health;
小型硅铁合金冶炼对作业工人健康影响
16.
An Analysis of the countermeasure against the Smog from 6300KVA Electric Ferrosilicon Smelting Furnace;
6300KVA硅铁电炉冶炼废气污染的防治对策分析
17.
Research of Ladle Deoxidized Slag Used as Flux to Make Silicon-manganese
钢包脱氧渣做熔剂冶炼硅锰合金的探索
18.
PRIMARY EXPLORING FOR SMELTING MANGANE-SESILICON WITH DEOXIDIZING SLAG AS FLUX
“转炉钢脱氧渣”做熔剂冶炼锰硅合金的初步探索