Microstructure and Properties of Cr3C2-Rich Binary Cr3C2-WC-Ni(Co) Hardmetal Coatings

International Thermal Spray Conference Pub Date : 2023-05-22 DOI:10.31399/asm.cp.itsc2023p0589

L. Berger, S. Conze, Kerstin Gnauck, M. Vostřák, Š. Houdková, Tomáš Taranda

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Abstract

Hardmetal coating compositions containing both WC and Cr3C2 are less intensively studied than WC-Co(Cr) and Cr3C2-NiCr. In particular, compositions with Cr3C2 as the main phase are relatively new in the market. In this contribution, two commercial agglomerated and sintered feedstock powders with similar compositions (42Cr3C2-42WC-16Ni and 45Cr3C2- 37WC-18NiCoCr) were studied. Both powders differ in their porosity and the melting behavior, as was found by DSC experiments. Coatings were deposited with a liquid-fueled HVOF process (JP 5220). Optimization of the spray conditions was evaluated with five different spray parameter sets. Coating microstructures and phase compositions, as well as microhardness HV0.3 and abrasion wear resistance were less influenced by the spray parameter sets. At the same time, significant differences in deposition efficiency between the two compositions were observed, which might be related to the differences in the melting behavior of the compositions and the powder porosity. However, coating microhardness and abrasion wear resistance were similar for each of the spray parameter sets. Coating microstructure and phase composition were studied with a focus on the interaction between Cr3C2 and WC and will be discussed in detail.

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富cr3c2二元Cr3C2-WC-Ni(Co)硬质合金涂层的组织与性能

与WC- co (Cr)和Cr3C2- nicr相比，WC- co (Cr)和Cr3C2- nicr的硬质合金涂层组合物研究较少。特别是，以Cr3C2为主要相的组合物在市场上相对较新。本文研究了两种成分相似的工业原料粉(42Cr3C2-42WC-16Ni和45Cr3C2- 37WC-18NiCoCr)。DSC实验发现，两种粉末的孔隙率和熔化行为不同。涂层采用液体燃料HVOF工艺(JP 5220)沉积。采用五种不同的喷雾参数对喷雾条件进行了优化。喷涂参数组对涂层组织、相组成、显微硬度HV0.3和耐磨性的影响较小。同时，两种成分的沉积效率存在显著差异，这可能与两种成分的熔化行为和粉末孔隙率的差异有关。然而，涂层的显微硬度和耐磨性对于每个喷涂参数组是相似的。研究了涂层的微观组织和相组成，重点研究了Cr3C2与WC的相互作用，并对其进行了详细的讨论。

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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International Thermal Spray Conference

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