During continuous casting of high aluminum steel, composition and properties of mold fluxes change obviously due to the slag-steel reaction.
高铝钢连铸过程中,钢渣反应将导致连铸保护渣成分和性能发生较大的变化。
The melting rate and melting structure of mold fluxes are so important that the carbon material and their addition amounts should been selected cautiously.
连铸过程通常采用调节配炭量和配炭方式来调节保护渣的熔化速度和熔融层状结构。
Aiming at the process of continuous casting billets, serialization of mold fluxes for billets was discussed by analyzing the solidification characteristic of the steel grades.
针对水钢小方坯连铸工艺,以钢种的凝固特性为出发点,对连铸保护渣进行了系列化探讨。
The melting process of mold fluxes were simulated in an unidirectional furnace so how these six kinds of carbon material influence on the melting rate and melting structure was made clear.
本文通过单向加热炉模拟保护渣在结晶器内的熔化过程,研究了六种炭质材料对保护渣熔化速度和熔融结构的影响。
The melting process of mold fluxes were simulated in an unidirectional furnace so how these six kinds of carbon material influence on the melting rate and melting structure was made clear.
本文通过单向加热炉模拟保护渣在结晶器内的熔化过程,研究了六种炭质材料对保护渣熔化速度和熔融结构的影响。
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