纳米CeO2掺杂对烧结钕铁硼磁体表面Zn-Al涂层性能的影响

采用喷涂工艺在烧结钕铁硼磁体表面制备了不同纳米 CeO₂ 掺杂量的 CeO₂ / Zn-Al 复合涂层。 利用扫描电子显微镜、显微硬度仪、盐雾试验箱和电化学工作站对 CeO₂ / Zn-Al 复合涂层的微观结构、力学性能及耐腐蚀性能进行表征分析。 结果表明:CeO₂ 纳米颗粒较均匀弥散分布于 Zn-Al 涂层中,不仅能够增加 Zn-Al 涂层的硬度,而且可以提高 Zn-Al 涂层的屏蔽性能,CeO₂ / Zn-Al 复合涂层耐中性盐雾试验能力高达 720 h。 添加的 CeO₂ 颗粒能够隔绝 Zn-Al 涂层中的锌铝薄片之间的直接接触,起到绝缘作用,延长了腐蚀介质渗入钕铁硼基体的腐蚀通道。

Effects of CeO2 Nanoparticles Doping on Properties of Zn-Al Coating on Sintered NdFeB Magnets

CeO₂ / Zn-Al composite coatings with different contents of CeO₂ nanoparticles contents were prepared on the surface of sintered NdFeB magnets using spraying technique. The microstructures, mechanical properties, and corrosion resistance of CeO₂ / Zn-Al coating layers were analyzed by means of scanning electron microscopy (SEM), microhardness tester, neutral salt spray test chamber, and electrochemical workstation. Results show that the introduction of dispersive CeO₂ nanoparticles disperse into Zn-Al layer, not only enhances the hardness of Zn-Al coating layer, but also improves the shielding performance of Zn-Al coating layer, and thus the resistance to neutral salt spray test of the CeO₂ / Zn-Al composite coatings can reach up to 720 h. The addition of CeO₂ nanoparticles can act as an insulator to avoid the direct contact between Zn-Al flakes in Zn-Al coating, and pro- long the corrosion channel of corrosion medium penetrating into NdFeB substrate.