1) nozzle electromagnetic braking (N-MEBr)
水口电磁制动
2) electromagnetic brake
电磁制动
1.
Influence of Electromagnetic Brake on Impact to Solidified Shell and Temperature at Meniscus in CSP Mould;
电磁制动对CSP结晶器内坯壳冲击和弯月面温度的影响
2.
The simulated experiment on the electromagnetic brake of the sheet billet continuous casting crystallizer;
薄板坯连铸结晶器电磁制动的热模拟实验
3.
A simulating experiment of electromagnetic brake was carried out in laboratory using Pb-Sn-Bi low melting-point alloy.
用Pb-Sn-Bi低熔点合金进行了电磁制动模拟实验,研究了单条形稳恒磁场对结晶器内流体流动的控制效果,考察了各操作参数对电磁制动效果的影响。
3) electromagnetic braking
电磁制动
1.
Comparison of motor s braking methods,detailed analysis and comparison of three power supplies(common type,DC Power provided by control transformer,fast breaking) used for YEJ series electromagnetic braking three phase asynchronous motor are presented.
对电动机制动方法进行了比较,对YEJ系列电磁制动三相异步电机常用的普通型、控制变压器提供直流电源、快捷并断型等三种电源进行了详细分析和比较,推荐使用快速关断型整流电源,并对其在实际应用中的相注意的问题做了介绍。
2.
According to the present situation of vehicle s braking system, this paper studies the electromagnetic braking system preliminarily, and introduces two schemes of electromagnetic braking system: the single electromagnet for braking on de-energizing condition and the double electromagnets for braking on energizing condition.
结合机车车辆制动系统的运行情况,对电磁制动系统进行了初步探讨。
3.
The influence of operation conditions,such as magnetic flux density,port angles of nozzle and position of magnetic field,on electromagnetic braking were simulated.
数值模拟了在电磁制动作用下结晶器内金属液的流动行为,并研究了诸如磁感应强度,水口出口角度和磁场位置等各种操作条件对电磁制动效果的影响。
4) EMBR
电磁制动
1.
Effect of EMBr on Inclusion Behavior in CSP Mold;
电磁制动对CSP结晶器内夹杂物行为的影响
2.
Application of EMBR at Meishan high efficiency CCM;
结晶器电磁制动技术在梅山高效连铸中的应用
3.
2 continuous caster in Meishan Steel plant the influence of Flow Control Mold Electromagnetic Brake(EMBR) on the non-metallic inclusion of the slab was studied.
对梅钢2#连铸机采用的FC-Mold(Flow Control Mold)全幅二段电磁制动器对钢中非金属夹杂物的影响进行了研究。
5) electromagnetic brake
电磁制动器
1.
Study and analysis of the braking force of towed trailer using electromagnetic brake with single shaft;
单轴挂车电磁制动器制动力的分析研究
2.
The ABS and simulation of trailer in use of new electromagnetic brakes;
新型电磁制动器的挂车防抱死控制及其仿真
3.
Variable structure control in vehicle electromagnetic brake and its sim ulation;
汽车电磁制动器的变结构控制及其仿真
6) electromagnetic shoe brake
电磁靴制动
补充资料:电磁制动器
利用电磁效应实现制动的制动器,分为电磁粉末制动器和电磁涡流制动器两种形式(见图)。①电磁粉末制动器:激磁线圈通电时形成磁场,磁粉在磁场作用下磁化,形成磁粉链,并在固定的导磁体与转子间聚合,靠磁粉的结合力和摩擦力实现制动。激磁电流消失时磁粉处于自由松散状态,制动作用解除。这种制动器体积小,重量轻,激磁功率小,而且制动力矩与转动件转速无关,但磁粉会引起零件磨损。它便于自动控制,适用于各种机器的驱动系统。②电磁涡流制动器:激磁线圈通电时形成磁场。制动轴上的电枢旋转切割磁力线而产生涡流。电枢内的涡流与磁场相互作用形成制动力矩。电磁涡流制动器坚固耐用、维修方便、调速范围大;但低速时效率低、温升高,必须采取散热措施。这种制动器常用于有垂直载荷的机械中。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条