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Journal of Materials Engineering and Performance

Erschienen in:

16.04.2018

Microstructural Evolution of NiCrBSi Coatings Fabricated by Stationary Local Induction Cladding

verfasst von: Xuliang Chen, Xunpeng Qin, Kai Gao, Zhenhua Zhu, Feng Huang

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 5/2018

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Abstract

The development of induction cladding has been restricted by the complicated geometric characteristics of workpieces and the large heat-affected zone in the cladded workpieces. In this paper, three-dimensional continual local induction cladding (3D-CLIC) was proposed as a potential process to clad coating over a substrate with curved surface, and a stationary local induction cladding (SLIC) experiment was conducted as an exploratory study of 3D-CLIC. The microstructures and microhardness in the coatings were measured by SEM, EDS, XRD and microsclerometer, respectively. The results indicate that the coating is metallurgically bonded with the substrate without any defects. A compositional gradient exists in the diffusion transfer belt (DTB), and it decreases with the increase in induction heating time. The coating is mainly composed of (Fe, Ni), CrB, M₇C₃, Ni₃B, Ni₃Si and M₂₃C₆ (M = Cr, Ni, Fe). Among the carbides, M₇C₃ presents several morphologies and M₂₃C₆ is always attached to the DTB. A special phenomenon of texture was found in the SLIC coatings. The preferred orientation in (200) crystal plane or the restrained orientation in (111) (200) crystal plane becomes more obvious as the scanning speed increases. The maximum average microhardness is 721 HV when the coating is heated for 5 s. The wear loss of different samples increases with increasing induction heating time. The longer heating time would result in higher dilution in the SLIC coatings due to the complete mixing with the substrate, thus leading to the decrease in microhardness and wear loss.

Vorheriger Artikel The Effect of Mo Particles Addition in Ag-Cu-Ti Filler Alloy on Ti(C,N)-Based Cermet/45 Steel-Brazed Joints

Nächster Artikel Densification, Microstructural Evolution, Mechanical Properties and Oxidation Study of CrB2 + EuB6 Composite

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Titel: Microstructural Evolution of NiCrBSi Coatings Fabricated by Stationary Local Induction Cladding
verfasst von: Xuliang Chen
Xunpeng Qin
Kai Gao
Zhenhua Zhu
Feng Huang
Publikationsdatum: 16.04.2018
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 5/2018
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-018-3344-4

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