漩涡泵(也称涡电流泵)是一种叶片泵。
Vortex pump (also known as eddy current pump) is a vane pump.
描述了涡电流分选装置的结构以及涡电流分选的应用领域。
The configuration and application fields of eddy current separator were described.
介绍了涡电流分选的物理原理,分析了导体所受的成分力。
The physical theories of eddy current separation were introduced, and the conductor forces which were caused by eddy current separation were analyzed.
所有的吊钩销全部经过涡电流检验,以确保相同的硬度品质。
All the hook after selling all the eddy current inspection to ensure the quality of the same hardness.
合理调节涡电流分选设备的工作参数,能获得质量较好的金属富集体。
Parameters of eddy current separator should be simultaneously adjusted in order to achieve excellent metal concentrate.
当铝盘转动的时候,铝盘靠近磁片从而产生“涡电流”,这种涡电流就对线杯产生了刹车作用。
Well, when the aluminum spool is rotating, the closeness of the aluminum to the magnets creates what's called an "eddy current," and this eddy current creates the braking effect on the spool.
随着神经网络的涡电流和温度分布的预测上不断移动的薄导电带横向磁通感应加热(TFIH)的设备。
With neural network the eddy current and temperature distribution prediction on the continuously moving thin conducting strips in transverse flux induction heating (TFIH) equipment is presented.
以轧辊表面的涡电流引导做为检验方式,以不同的双电线探头交替检测,再轧辊表面上移动位置并随之调整电流导电率。
Eddy current inspection is performed by the inducement of eddy currents on the roll surface by the application of an alternating current from a dual-wire differential probe.
根据涡电流分选的原理,采用钕铁硼系磁体,研制出CRIMM型稀土永磁辊式涡电流分选机,对其结构及使用领域进行了描述。
The paper describes the principle of the separator, and the structure and applications of CRIMM permanent magnetic re eddy current separator.
涡电流隔离器自从20世纪90年代早期就开始得到使用,它是由长瓶状转鼓内的一个快速旋转磁力转子组成的,转鼓的旋转速度会较慢。
Eddy-current separators, in use since the early 1990s, consist of a rapidly revolving magnetic rotor inside a long, cylindrical drum that rotates at a slower speed.
当然,该物件可藉 由该顶掣件顶推伸置于该涡电流装置内部的位置,以便针对该物件特 定部份进行检测作业,亦能有效提升检测速度。
Of course, the objects can be propped to positions inside the eddy current device through the propping element to detect specific parts of the objects, and the detection speed can also be improved.
当然,该物件可藉 由该顶掣件顶推伸置于该涡电流装置内部的位置,以便针对该物件特 定部份进行检测作业,亦能有效提升检测速度。
Of course, the objects can be propped to positions inside the eddy current device through the propping element to detect specific parts of the objects, and the detection speed can also be improved.
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