应用该模型计算了超磁致伸缩力传感器空气隙中的磁感应强度和磁致伸缩棒上施加力的关系,并与实验值进行了比较。
Using the proposed model, the relation between the magnetic flux density in the air of the giant magnetostrictive force sensor and the value of force applied on the magnetostrictive rod is calculated.
测试合金棒的磁致伸缩性能,研究材料的组织结构,分析组织中缺陷产生的原因。
The magnetostriction of the alloy rods was tested. The microstructures and the causes of defects in the alloy were investigated.
根据电磁测量基本原理,针对 磁致伸缩材料棒材的动、静态磁特性,结合英国布莱顿大学的的测量系统,研制了多参数 磁测量系统。
The magnetic measurement system of multiple parameters was investigated based on the fundamental electromagnetic principles, and combined with the measurement system of Brighton university.
超磁致伸缩微位移致动器和步进电机相结合实现进给和压力施加, 完成。电热棒通电加热凹模,并由温控组件保持凹模的恒温。
The warm extruding apparatus includes a heating laser system, an extruding mold, a pressure applying mechanism, a feeding mechanism, a 3D precise worktable, a support and a control system.
超磁致伸缩微位移致动器和步进电机相结合实现进给和压力施加, 完成。电热棒通电加热凹模,并由温控组件保持凹模的恒温。
The warm extruding apparatus includes a heating laser system, an extruding mold, a pressure applying mechanism, a feeding mechanism, a 3D precise worktable, a support and a control system.
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