The stress testing based on counter magnetostriction effect of ferromagnetic materials is a new technique.
基于铁磁材料逆磁致伸缩效应的应力测试是一种新技术。
The transducer utilizes a combination of magnetostriction effect and ultrasonic effect for the displacement measuring.
该传感器利用磁致伸缩效应和超声效应二者的结合达到位移测量目的。
The design of differential stress sensor with five magnetic pole based on counter magnetostriction effect of ferromagnetic materials is given.
磁致伸缩逆效应是稀土超磁致伸缩材料的一个重要应用特性,应用磁致伸缩逆效应可以制作超磁致伸缩力传感器。
In order to realize the ice auto-detecting in the complex situation, this paper presented a vibrating-tube ice detector based on the magnetostriction and its inverse effect of the material.
为了实现复杂环境中结冰的自动探测,根据材料的磁致伸缩特性及其逆效应,设计了振动式结冰传感器。
Vibration tube in the magnetic field vertically brings about magnetostriction under the effect of alternate magnetic field, that is axis resonance.
当振管垂直立于磁场环境中时,在交变磁场的作用下产生磁致伸缩,即沿振管的轴向作简谐振动。
Vibration tube in the magnetic field vertically brings about magnetostriction under the effect of alternate magnetic field, that is axis resonance.
当振管垂直立于磁场环境中时,在交变磁场的作用下产生磁致伸缩,即沿振管的轴向作简谐振动。
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