A novel non-contact micro- and nanomanipulation method is proposed. This method, Dipole Field Manipulation (DFM), exploits the distortion of a uniform magnetic field induced around ferromagnetic cores. While this distortion can generate strong magnetic gradients to induce pulling forces on a manipulated object, the direction of the field can be used to induce magnetic torques. This paper presents a first insight on DFM capabilities and control possibilities. We show that by varying the orientation and strength of the uniform field, DFM has the potential to achieve effective manipulation in up to six degrees of freedom. Using conventional electromagnetic coils as the uniform field source and a mobile core, gradients can reach 1–2 T/m or more in the whole manipulation workspace. Such coils provide fast directional force and torque variation capabilities, and allow an easy access to the workspace for feedback visualization and core positioning. A first concept for a 6-DOF DFM system is proposed. Results of a preliminary experiment where a particle was moved around a 0.5×1 mm rectangular path demonstrate the feasibility of the method to induce sufficient forces in any direction.
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机译:提出了一种新颖的非接触式微纳米加工方法。这种称为偶极场操纵(DFM)的方法利用了在铁磁芯周围感应的均匀磁场的畸变。尽管这种变形会产生很强的磁梯度,从而在被操纵的物体上产生拉力,但磁场的方向却可以用来产生磁转矩。本文提出了关于DFM功能和控制可能性的初步见解。我们表明,通过改变均匀场的方向和强度,DFM有潜力在多达六个自由度上实现有效操纵。使用传统的电磁线圈作为均匀场源和移动磁芯,在整个操作工作空间中,梯度可以达到1-2 T / m或更高。这种线圈提供快速的方向力和转矩变化能力,并允许轻松访问工作空间以进行反馈可视化和磁芯定位。提出了六自由度DFM系统的第一个概念。初步实验的结果表明,颗粒绕0.5×1 mm的矩形路径移动,证明了该方法在任何方向上产生足够力的可行性。
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