Forming mechanism and tribological properties of a Ni-based coating prepared from transverse static magnetic field-assisted supersonic plasma spraying

Green Manufacturing Open Pub Date : 1900-01-01 DOI:10.20517/gmo.2022.03

Zhiyuan Wang, Yanfei Huang, Hai-dou Wang, D. Shan, Z. Xing

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引用次数: 1

Abstract

Magnetic field-assisted forming represents an environmentally friendly, contactless and high-efficiency technology for the development of advanced in situ manufacturing. The application of this technology provides a new concept for improving the properties of ferromagnetic wear-resistant coatings. In this study, we combine magnetic field-assisted forming with supersonic plasma spraying to prepare a Ni-based coating assisted by a transverse static magnetic field. The porosity of the magnetic field-assisted coating is below 2%, the hardness of the coating increases from 638.46 to 785.45 MPa and the tribological coefficient decreases from 0.466 to 0.422. The presence of the static magnetic field directly affects the bubble movement during the forming process of the coating, which makes the bubbles escape outward and reduces the porosity of the coating. The presence of the static magnetic field also further improves the phase structure of the coating, so that the magnetic domain distribution is uniform and the hard phase inside the coating increases. Finally, the residual stress and tribological properties of the coating are also improved.

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横向静磁场辅助超音速等离子喷涂制备镍基涂层的形成机理及摩擦学性能

磁场辅助成形是一种环保、无接触、高效的先进原位制造技术。该技术的应用为提高铁磁耐磨涂层的性能提供了新的思路。在这项研究中，我们将磁场辅助成形与超音速等离子喷涂相结合，在横向静态磁场的辅助下制备了镍基涂层。磁场辅助涂层的孔隙率低于2%，涂层硬度从638.46 MPa提高到785.45 MPa，摩擦系数从0.466降低到0.422。静磁场的存在直接影响涂层成形过程中气泡的运动，使气泡向外逸出，降低了涂层的孔隙率。静磁场的存在也进一步改善了涂层的相结构，使磁畴分布均匀，涂层内部的硬相增多。最后，涂层的残余应力和摩擦学性能也得到改善。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Green Manufacturing Open

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