3D printing of high-precision and ferromagnetic functional devices

Zhiyuan Huang; Guangbin Shao; Dekai Zhou; Xinghong Deng; Jing Qiao; Longqiu Li

doi:10.1088/2631-7990/acccbb

The development of projection-based stereolithography additive manufacturing techniques and magnetic photosensitive resins has provided a powerful approach to fabricate miniaturized magnetic functional devices with complex three-dimensional spatial structures. However, the present magnetic photosensitive resins face great challenges in the trade-off between high ferromagnetism and excellent printing quality. To address these challenges, we develop a novel NdFeB-Fe₃O₄ magnetic photosensitive resin comprising 20 wt.% solid loading of magnetic particles, which can be used to fabricate high-precision and ferromagnetic functional devices via micro-continuous liquid interface production process. This resin combining ferromagnetic NdFeB microparticles and strongly absorbing Fe₃O₄ nanoparticles is able to provide ferromagnetic capabilities and excellent printing quality simultaneously compared to both existing soft and hard magnetic photosensitive resins. The established penetration depth model reveals the effect of particle size, solid loading, and absorbance on the curing characteristics of magnetic photosensitive resin. A high-precision forming and ferromagnetic capability of the NdFeB-Fe₃O₄ magnetic photosensitive resin are comprehensively demonstrated. It is found that the photosensitive resin (NdFeB:Fe₃O₄ = 1:1) can print samples with sub-40 µm fine features, reduced by 87% compared to existing hard magnetic photosensitive resin, and exhibits significantly enhanced coercivity and remanence in comparison with existing soft magnetic photosensitive resins, showing by an increase of 24 times and 6 times, respectively. The reported NdFeB-Fe₃O₄ magnetic photosensitive resin is anticipated to provide a new functional material for the design and manufacture of next-generation micro-robotics, electromagnetic sensor, and magneto-thermal devices.

3D printing of high-precision and ferromagnetic functional devices

State Key Laboratory of Robotics and System, Harbin Institute of Technology, Harbin, Heilongjiang 150001, People's Republic of China

Publish Date: 2023-05-18

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3D printing of high-precision and ferromagnetic functional devices

doi: 10.1088/2631-7990/acccbb

Abstract

Keywords

通讯作者: 陈斌, bchen63@163.com

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