电磁感应加热器采用有断点开合结构及无断点技术,操作简便,性能可靠。
Electromagnetic induction heaters adopt the stop point open-close structure and non-stop point technique.
采用防水防腐技术对磁钢、磁感应器件及印刷线路板进行封闭处理,壳体采用彩色镀锌处理工艺。
The magnetic steel, the magnetic sensor and the printed circuit board are sealed by a waterproof and anticorrosive technique, and a housing is processed by a color zinc-plating technique.
讨论有电磁感应时,载流导线在磁场中的运动规律及磁力对载流导线所作的功。
The moving law of a current-carrying wire in magnetic field and the work done by magnetic force for it are discussed.
结果表明,随着磁场的增加,矫顽力及剩余磁感应强度开始时快速增大,高场后增加缓慢并趋于饱和。
The results indicate that as the magnetizing field increases, both the coercivity and remanence increase sharply up to a certain high field and then slowly increase to a saturated value.
概括了接地开关开合感应电流的运行工况及同杆双回线路电磁感应与静电感应的产生机理;
The questions of earthing switch switching induced current are discussed in this paper, and the operating mode is summarized.
通过分析得到整个电机电磁场的分布及波形近似为正弦的气隙磁感应强度,分析结果有助于对电机进行优化设计和控制。
A approximately sine waveform air-gap magnetic field density can be gained based on the analysis of the whole electromagnetic field. The results are helpful to optimization design and control.
文中以“布朗运动”及“电磁感应现象的研究”为例进行说明。
Now give examples like the study of "Brown Movement" and "Electromagnetic Induction" to illustrate.
介绍机床改装原理、结构和技术参数,对电磁感应器磁路及电磁线圈参数进行了有关的计算。
Introducing the principle, construction and technological parameters of machine tool changement. This paper calculates some design data such as electro-magnetic induction circuit and coil.
利用瞬态分析方法,研究高频正弦激励电流密度在结晶器内钢液中产生的磁感应强度、感应电流及电磁力的变化规律。
The rule of magnetic induction density, induced eddy current and electromagnetic force varied with high frequency sine exciting current was investigated.
非金属夹杂物的直径、磁感应强度的大小及磁场的位置影响非金属夹杂物的运动轨迹及分布。
Moreover the trajectory distribution of inclusions is influenced by the diameter of inclusions and by the magnitude and position of the magnetic field.
介绍了根据电磁感应原理、电涡流效应和集肤效应设计、制作EMI传感器的方法。详细讨论了激磁和检测线圈的绕制参数及调试方法。
A series of techniques for making the EMI sensor based on the theory of ElectroMagnetic Induction, eddy current effect and skin-effect were introduced.
介绍了根据电磁感应原理、电涡流效应和集肤效应设计、制作EMI传感器的方法。详细讨论了激磁和检测线圈的绕制参数及调试方法。
A series of techniques for making the EMI sensor based on the theory of ElectroMagnetic Induction, eddy current effect and skin-effect were introduced.
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