真空度、氢气搅拌和金属液中氧、硫浓度是影响真空脱氮和气泡携带法脱氮的主要因素。
Vacuum denitrogenation and bubble carrying denitrogenation are mainly influenced by vacuum, argon stirring, oxygen and sulphur concentrations in liquid metal.
考察了不同通气量和操作转速下气液搅拌槽内流体流动,局部气含率和气泡尺寸的分布规律。
The effects of gas flow rate and rotating speed on the fluid field, local void fraction distribution and bubble size distribution were investigated.
在物料进行自转公转搅拌的过程中,通过加入真空抽取功能,真空脱泡机,从而使脱泡混料搅拌设备可以得到高-效清除亚微米级的气泡的功能。
When the material is in the process of rotation and revolution, the mixing device can deeply clean the sub micron bubble by adding vacuum extraction function.
搅拌器打碎气泡。
主要由盛浆槽、搅拌装置、充气装置、排出矿化气泡装置、电动机等组成。
The machine is mainly made up by filling slurry chute, mixing device, inflatable device, the device of discharging mineralized bladder, motor etc.
通过对发气时间、气泡含量和气孔结构的研究,分析了料浆温度、搅拌时间和铝粉膏对料浆发气膨胀的影响。
Based on the research of aerated time, pore content, aerated structure, the influence of slurry temperature, mixing time and aluminum powder on paste expansion is analyzed.
分析认为,气流能提高铁精矿品位归功于气流的搅拌作用和气泡破碎时形成的负压及强扰动。
The analysis ascribed the increase of iron concentrate grade by airflow to the air-flow agitation and the negative pressure or strong disturbance as gas bubbles broke down.
睁个工序在真空条件下进行,防止物料在高速搅拌后产生气泡,能达到卫生无菌要求。
The whole working procedure is operated in he condition of vacuum in order to prevent the material coming into being bubble after high-speed blending and reach the request of sanitation and asepsis.
睁个工序在真空条件下进行,防止物料在高速搅拌后产生气泡,能达到卫生无菌要求。
The whole working procedure is operated in he condition of vacuum in order to prevent the material coming into being bubble after high-speed blending and reach the request of sanitation and asepsis.
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