Magnetoelastic Sensor(磁弹性传感器)研究综述
Magnetoelastic Sensor 磁弹性传感器 - In this study, CoNiFe magnetic nanowires were detected using a magnetoelastic sensor (ME) without any coating. [1] We present a comprehensive investigation into magnetoelastic sensors (MES) technology applied to biomedical engineering. [2] This work sets the basic prospects for the design of a new Structural Health Monitoring (SHM) technique combining the efficiency of the magnetoelastic sensors together with the proposed method. [3] It is shown that taking into account the distribution of circuit parameters during calculations significantly reduces the error in calculating the characteristics of magnetoelastic sensors. [4] Presented solution opens new ways of modelling the characteristics of magnetoelastic sensors with non-uniform stress distribution, where it is necessary to consider not only the value of mechanical stresses, but also the connection between the direction of magnetizing field and stress-induced uniaxial anisotropy easy axis. [5]在这项研究中,使用没有任何涂层的磁弹性传感器 (ME) 检测到 CoNiFe 磁性纳米线。 [1] 我们对应用于生物医学工程的磁弹性传感器 (MES) 技术进行了全面调查。 [2] 这项工作为设计一种新的结构健康监测 (SHM) 技术提供了基本前景,该技术将磁弹性传感器的效率与所提出的方法相结合。 [3] 结果表明,在计算过程中考虑电路参数的分布可以显着降低磁弹性传感器特性计算中的误差。 [4] 提出的解决方案开辟了模拟具有非均匀应力分布的磁弹性传感器特性的新方法,其中不仅需要考虑机械应力的值,还需要考虑磁化场方向与应力引起的单轴各向异性之间的联系。轴。 [5]