1·The liquid height in vacuum vessel had been optimized for inclusions removal.
真空室内的液面高度也存在一个最佳值。
2·Hydrostatic test, Pneumatic test, test pressure, test temperature, Vacuum vessel, Combination units.
液压试验,气压试验,试验压力,试验温度,真空容器,组合容器。
3·The plsama modification of powder like material has been carried out by adding rotating cylinder in the vacuum vessel.
普通的表面处理仪难以处理粉体材料,通过加装旋转滚筒,实现了粉体材料的表面改性处理。
4·The induced eddy currents, magnetic fields and electromagnetic forces in the vacuum vessel and copper shell are calculated.
给出了破裂时内真空室和铜壳的感应涡流、磁场和电动力。
5·The condition that plasma breakdown on Tokmak is get enough high loop voltage and large null field region in the vacuum vessel area.
托卡马克装置产生等离子体击穿的条件是在真空室区域中达到足够大的环电压以及尽可能大的零场区。
6·The heat load to the vacuum vessel thermal shield (VVTS) is analyzed by FLUENT finite element software in order to demonstrate that the design of cooling tubes is reliable.
采取有限元法对内冷屏的受热状况进行了计算分析,以验证内冷屏氦冷却管道设计方案的可靠性。
7·The eddy current losses in the toroidal field superconducting magnet of the HT-7U tokamak, produced by plasma current and the eddy currents on the vacuum vessel, are analyzed.
文章分析了由等离子体电流和真空室感应电流在HT-7U装置环向场超导磁体中产生的涡流损耗。
8·The technology of vibratory stress relief(VSR) used in energy engineering, such as HT-7U nuclear fusion superconducting Tokamak massive base plate and vacuum vessel was introduced.
介绍了振动时效技术在HT-7U超导托卡马克核聚变大底板、真空装置等能源工程中的应用。
9·This paper deals with the eddy currents on the vacuum vessel of fusion devices. The eddy currents on the vessel are considered as surface currents and described by the normal components of a vector.
本文研究了聚变装置真空室上的涡流问题,将真空室上的涡流看作面电流密度并定义一矢势的法向分量来描述它。
10·It introduces how to produce high nitrogen ferrochrome in vacuum furnace, non - pressured vessel type.
简述了采用非压力容器型真空电阻炉生产高氮铬铁的过程。