Untethered Microrobot Motion Mechanism With Increased Longitudinal Force

Author:

Demircali Ali Anil1,Varol Rahmetullah1,Erkan Kadir1,Uvet Huseyin1

Affiliation:

1. ASIL Lab, Mechatronics Engineering, Yildiz Tecnhical University, 34349 Istanbul, Turkey

Abstract

Abstract The importance of an untethered microrobotic platform that can operate on high flowrate microfluidic channels for in vitro applications is increasing rapidly. This article presents a method to manipulate a microrobot in a fluidic chip when high flowrates (4 ml/min, 82.304 mm/s) are applied. This method is based on a novel permanent magnet-based diamagnetic levitation configuration. This configuration includes a thin layer of pyrolytic graphite, which is placed just below the microrobot. In this way, microrobot stability and manipulation capability are increased. Also, we aim to increase the longitudinal forces imposed on the microrobot to withstand the drag force proportional to the flowrate. Hence, magnetic field lines are generated more linearly around the microrobot by a different combination of permanent magnets. The proposed magnetic configuration, named “KERKAN configuration,” significantly improves the microrobot’s longitudinal forces. In this configuration, two different ring-shaped ferromagnetic magnets are used. One of the magnets has a smaller diameter than the other magnet. A combination of one smaller and one bigger magnet is placed above and below the microrobot. To validate the advantages of this configuration, analytical and simulation studies are conducted. Their results are then compared with experimental results. Experimental results are on par with analytical and simulation studies. KERKAN configuration has a lower displacement than the next best configuration at the highest flowrate we applied (relatively 3301 μm, %21.8).

Funder

The Scientific and Technological Research Council of Turkey

Publisher

ASME International

Subject

Mechanical Engineering

Cited by 4 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Inverse modeling of untethered electromagnetic actuators using machine learning;Transactions of the Institute of Measurement and Control;2024-05-29

2. Modeling and control of magnetically actuated micro/milli robots position under laminar flow;Journal of Magnetism and Magnetic Materials;2024-04

3. Magnetically driven microrobots moving in a flow: a review;Frontiers of Information Technology & Electronic Engineering;2023-11

4. Microfluidic wound scratching platform based on an untethered microrobot with magnetic actuation;Sensors and Actuators B: Chemical;2022-12

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