1.
NUMERICAL SIMULATION OF FLUID FLOW IN A LADLE DURING ARGON BOTTOM BLOWING REFINING PROCESS
底吹氩精炼过程中钢包内流体流动的数值模拟
2.
Argon flow control in the process of bottom blowing argon in a LF
氩气流量控制在钢包精炼炉底吹中的实现
3.
The Process Mechanism Analysis and Control Method Research of Steel-Making Bottom Blowing Argon
炼钢底吹氩过程机理分析与控制方法研究
4.
Analysis of High Nitrogen Steels Refining Factors With High Pressure and Bottom-Blown Nitrogen
高压-底吹氮法高氮钢精炼因素分析
5.
Simulation of Vacuum Ruhrstahl-Heraeus-Degassing at Different Gas Circulation Flow Rates
RH真空精炼吹氩参数对循环流动影响的数值分析
6.
Comparative experiments were conducted to investigate the metallurgical, effects of top, bottom side and bottom argon blowing techniques.
为考察顶吹氩、侧吹氩及底吹氩的冶金效果,分别进行了三种吹氩工艺的对比试验。
7.
The experiments suggest that both bottom and bottom side argon blowing techniques provide better metallurgical effects than top blowing process, obtaining steel quality satisfactory to continuous casting requirements.
结果表明,底侧吹氩和底吹氩工艺的冶金效果均优于顶吹氩工艺,钢水质量均能满足连铸要求。
8.
Argon-blown pocket block is a supportive new and hi-tech product developed simultaneously with bottom-blow argon vent brick.
二、吹氩座砖是与底吹氩透气砖同步开发的配套高新技术产品。
9.
quality basic oxygen process
底吹氧气转炉炼钢法
10.
A STUDY ON ARGON-OXYGEN COMBINATION BLOWING PROCESS FOR LOW-CARBON CAST STAINLESS STEEL
氩-氧复合吹炼法生产低碳不锈铸钢的试验研究
11.
Analysis and Improvement of Permeable bricks' rupture for Ladle Bottom Argon Bubbling Purpose
钢包底吹氩透气砖断裂原因分析及改进措施
12.
Mathematical modelling of erosion of ladle lining with argon blowing at bottom
底吹氩钢包内衬蚀损行为的数值模拟研究
13.
Influence of Bottom Blowing Argon on Nonmetallic Inclusions in Electric Resistance Alloy Cr20Ni35
钢包底吹氩对电热合金Cr20Ni35非金属夹杂物的影响
14.
Improvement on Converter Alloy Chute and Ladle Argon Bottom Blowing System
转炉合金溜槽和钢包连续底吹氩气的改造
15.
A Study on Water Modeling of Ladle with Bottom Argon Blowing in Critical Slag Entrapment Condition
钢包底吹氩卷渣临界条件的水模型研究
16.
Lead smelting technology and the development of oxygen bottom blowing melting process
铅冶技术的发展及氧气底吹熔炼工艺
17.
Experimental Study on Smelting of High Nitrogen Steel with High Pressure and Bottom-blown Nitrogen
高压底吹氮法冶炼高氮钢的实验研究
18.
120 tons of converter are equivalent to the bottom compound blowing technology in applying
120t转炉顶底复合吹炼工艺技术应用