![]() ![]() With this mechanism, it takes 10 s to return the nanocomposite membrane of the microactuator to the original location after achieved maximum displacement. To control the return time of the membrane and reduce the recovery time, a bidirectional structure is used in the proposed microactuator. ![]() The membrane with 5 wt-% nanoparticles concentration has achieved a displacement of 65 μm for an electric current of 1000 mA in 12 s. After that, the effect of variation in coil turn number, coil current, and Fe 3O 4 nanoparticle concentration on the microactuator performance is investigated to improve the membrane displacement. First, the coil specifications include the temperature and magnetic field of the coil are examined to control the microactuator performance. The Amazon Braket Python SDK is an open-source library to design and build quantum circuits, submit them to Amazon Braket devices as quantum tasks, and monitor. The nanocomposite magnetic microactuator consists of Fe 3O 4 nanoparticles with excellent magnetic properties dispersed in a photo-polymerizable FLGPCL04 resin. This paper presents a novel material used in this SLA 3D printed electromagnetic nanocomposite microactuator, which has advantages in costs and time saving by a simplified fabrication process and minimum chances of human interactions. However, their fabrication by traditional soft lithography remains a time-consuming, labor-intensive, and high-cost operation. Electromagnetic microactuators are a key component of the membrane-based microelectromechanical devices to provide controllable and precise movements.
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