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电磁载荷
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  electromagnetic force
     Vacuum vessel is the location for the operation of plasma as one of the key component for HT-7U superconducting Tokamak device. During it operation the vacuum vessel will endure not only the electromagnetic force but also the pressure of boride water and the thermal stress owing to the 250℃ baking out.
     真空室作为HT-7U超导托卡马克核聚变试验装置主机关键部件,是等离子体运行的直接场所,在装置运行期间,它不仅受到电磁载荷,而且还会受到夹层内压力硼化水和250℃高温烘烤所产生的热应力。
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  “电磁载荷”译为未确定词的双语例句
     The NASTRAN finite element software was employed to calculate different load conditions of the thermal shield after analyzing the thermal stress in operation and electromagnetic forces under plasma disruptions for optimization design of the structure.
     在分析了冷屏低温运行时所受热应力以及等离子体破裂时所受电磁载荷的基础上,运用大型有限元分析程序NASTRAN,对其不同载荷状况进行了数值计算,为其结构设计与优化提供了理论依据。
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  相似匹配句对
     CALCULATION AND DISTRIBUTION OF FORMING LOAD FOR SHEET METAL MAGNETIC FORMING
     板坯电磁成形载荷计算方法及分布特性
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     Magnetic stirrer
     电磁搅拌器
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     Electro-Magnetic Metallurgy
     电磁冶金
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     DATA PROCESSING OF RANDOM LOAD
     随机载荷的数据处理
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     Wind Load on Mast
     井架的风载荷
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  electromagnetic force
Electromagnetic force is calculated theoretically.
      
Flow of an electrically conducting bubble liquid in the field of an electromagnetic force
      
It is demonstrated that, when the bubble liquid flows along the electromagnetic force vector, the bubbles lag behind the carrying flow and are compressed and warmed up.
      
In particular, the compression of the bubbles reduces the volumetric gas content, as well as increases the effective conductivity of the flow and the electromagnetic force in the downstream direction.
      
This sets conditions for crisis of the bubble flow when the electromagnetic force expels the bubbles against the main stream.
      
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Vacuum vessel is the location for the operation of plasma as one of the key component for HT-7U superconducting Tokamak device. During it operation the vacuum vessel will endure not only the electromagnetic force but also the pressure of boride water and the thermal stress owing to the 250℃ baking out. Firstly the electromagnetic force under the plasma disruption and vertical displacement event is analyzed using the numerical analysis method. And secondly the stress distribution and displacement for the vacuum...

Vacuum vessel is the location for the operation of plasma as one of the key component for HT-7U superconducting Tokamak device. During it operation the vacuum vessel will endure not only the electromagnetic force but also the pressure of boride water and the thermal stress owing to the 250℃ baking out. Firstly the electromagnetic force under the plasma disruption and vertical displacement event is analyzed using the numerical analysis method. And secondly the stress distribution and displacement for the vacuum vessel is analyzed employing COSMOS and NASTRAN finite element software. Some valuable theory basis and analysis method can be provided for the vacuum vessel of the semblable superconducting tokamak device.

真空室作为HT-7U超导托卡马克核聚变试验装置主机关键部件,是等离子体运行的直接场所,在装置运行期间,它不仅受到电磁载荷,而且还会受到夹层内压力硼化水和250℃高温烘烤所产生的热应力。首先采用数值模拟方法分析了真空室在等离于体突然破裂以及垂直位移事件诱发HALO电流所产生的电磁载荷,然后借用大型有限元分析程序COSMOS和NASTRAN,分析了真空室在各种工况下的应力分布和位移变形,为超导托卡马克同类装置真空室的结构设计提供了有价值的理论依据。

Quench of magnet is one of the special characteristics for superconducting Tokamak device. In order to accumulate some reliable engineering analysis method and data,in this paper the distribution and its magnitude of magnetic loads on the vacuum vessel due to the quench of toroidal field are analyzed firstly and the detailed stress and displacement nephograph on the basis of the finite element analysis for the structure of the vacuum vessel are obtained. The maximum stress and displacement on the vacuum vessel...

Quench of magnet is one of the special characteristics for superconducting Tokamak device. In order to accumulate some reliable engineering analysis method and data,in this paper the distribution and its magnitude of magnetic loads on the vacuum vessel due to the quench of toroidal field are analyzed firstly and the detailed stress and displacement nephograph on the basis of the finite element analysis for the structure of the vacuum vessel are obtained. The maximum stress and displacement on the vacuum vessel mainly locate in the inboard rectilinear shell.

磁体失超是超导托卡马克装置特有的一种现象 ,为了能够让 HT-7U超导托卡马克装置主机结构设计有可靠的工程分析数据和分析方法 ,采用数值模拟方法分析了纵场突然发生失超时放电真空室上感应产生的电磁载荷大小及其分布情况 ,对真空室进行了结构有限元计算 ,获得了 HT- 7U装置真空室在纵场失超情况下的应力云图和位移云图 ,最大应力和最大位移主要出现在真空室内侧直线段上

The EAST is a tokamak with superconducting toroidal and poloidal magnets operating at 4 K. In order to reduce the thermal load applied to surfaces of all cryogenically cooled components and keep the heat load of the cryogenic system minimal, a continuous radiation shield system located between the magnet system and the warm components is adopted. The EAST thermal shield system consists of vacuum vessel thermal shield and cryostat thermal shield. The NASTRAN finite element software was employed to calculate different...

The EAST is a tokamak with superconducting toroidal and poloidal magnets operating at 4 K. In order to reduce the thermal load applied to surfaces of all cryogenically cooled components and keep the heat load of the cryogenic system minimal, a continuous radiation shield system located between the magnet system and the warm components is adopted. The EAST thermal shield system consists of vacuum vessel thermal shield and cryostat thermal shield. The NASTRAN finite element software was employed to calculate different load conditions of the thermal shield after analyzing the thermal stress in operation and electromagnetic forces under plasma disruptions for optimization design of the structure.

EAST是一个全超导磁体系统的托卡马克实验装置,超导纵场和极向场磁体工作在4K温区下。在磁体和其它发热部件之间布置有冷屏系统,以减少作用到所有低温冷质部件上的热载,将其保持在最低水平。该系统包括真空室冷屏(内冷屏)和外真空杜瓦冷屏(外冷屏)两部分。在分析了冷屏低温运行时所受热应力以及等离子体破裂时所受电磁载荷的基础上,运用大型有限元分析程序NASTRAN,对其不同载荷状况进行了数值计算,为其结构设计与优化提供了理论依据。

 
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