Surface Insulation Performance of 3D Printed Functionally Graded Insulator Fabricated by Active-Mixing Fused Deposition Modeling (AM-FDM)

机译：通过主动混合融合沉积建模（AM-FDM）制造的3D印刷功能分级绝缘子的表面绝缘性能

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In this paper, the surface insulation performance of 3D-printed functionally graded material (FGM) insulators are investigated. These FGM insulators were fabricated through a self-developed 3D printing technique, which is called as Active-Mixing Fused Deposition Modeling (AM-FDM). Based on a prototypical AM-FDM platform, truncated cone insulators with heterogeneous relative permittivity were fabricated. Then, the surface flashover voltage of 3D-printed d-FGM insulators were tested under 50Hz AC voltage in both air and SF6 atmosphere. Preliminary results indicates a large increase (maximum 41%) in surface flashover voltage, which is especially significant when high pressure SF6 atmosphere $(> mathbf{0.3 MPa})$ is utilized. This research provides a novel and universal approach (i.e. AM-FDM 3D printing) for the fabrication of d-FGM objects, and verifies the feasibility of d-FGM in the improvement of surface insulation performance.

机译：在本文中，3D印刷功能梯度材料（FGM）绝缘子的表面绝缘性能进行了研究。这些FGM绝缘体是通过一个自行开发的3D印刷技术，其被称作有源混合的熔融沉积成型（AM-FDM）制造。根据一个典型的AM-FDM平台，具有异构相对介电常数圆锥台绝缘体被制造。然后，3D印刷d-FGM绝缘子的沿面闪络电压被50Hz的交流电压下在空气和SF 6气氛测试。初步结果表明在表面闪络电压的大幅增加（最大41％），这是特别显著当高压SF6气氛 $（> mathbf {0.3 兆帕}）$ 利用。该研究提供了d-FGM的制造一种新的和普遍的方法（即AM-FDM 3D打印）对象，并验证d-FGM的在表面绝缘性能的提高的可行性。

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《IEEE International Conference on High Voltage Engineering and Application》|2020年|1-4|共4页
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Wen-Dong Li; Jia-Wei Zhao; Yun Chen; Yan-Hui Wei; Zhi-Hui Jiang; Chao Wang; Hong-Bo Lan; Jun-Bo Deng; Guan-Jun Zhang;
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Insulators; Flashover; Three-dimensional printing; Insulation; Three-dimensional displays; Dielectrics; Atmosphere;

机译：绝缘体;闪络;三维印刷;绝缘;三维显示器;电介质;大气;

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Surface Insulation Performance of 3D Printed Functionally Graded Insulator Fabricated by Active-Mixing Fused Deposition Modeling (AM-FDM)

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