Structure and Properties of Plasma Cladding of High-Speed Steel S2-9-2 (W2Mo9Al)

IF 0.6 4区材料科学 Q4 METALLURGY & METALLURGICAL ENGINEERING

Metal Science and Heat Treatment Pub Date : 2024-10-14 DOI:10.1007/s11041-024-01062-w

V. E. Gromov, Y. F. Ivanov, A. B. Yuriev, S. S. Minenko, A. N. Gostevskaya

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Abstract

The structure of four-layer coatings with a total thickness of 9 mm made of high-speed molybdenum steel S2-9-2 (W₂Mo₉Al) was studied. The coatings were obtained on a substrate of 41CrMo4 (30CrMnSi) steel by plasma cladding using a powder wire in a mixture of argon and nitrogen. The structure of the coating was studied by electron microscopy and energy-dispersive x-ray spectroscopy (EDS) on sample sections. It is shown that the microhardness of the deposited layer varies in the range of 5.2 – 6.6 GPa. This is due to the formation of an inhomogeneous structure in the deposited layer consisting of grains of an iron-based solid solution, at the joints and along the boundaries of which are inclusions of eutectic enriched mainly with Mo, Cr, and W. Grain sizes vary between 5 and 20 μm. A sub-grain structure is observed in the grain volume, indicating substructural hardening of the deposited layer. The sizes of the sub-grains vary between 1.5 and 2.5 μm. The layer of the alloy S2-9-2 deposited on 41CrMo steel exhibits a framework-like structure. The main alloying elements of the clad layer are Fe, Mo, Cr, W, and Al.

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高速钢 S2-9-2（W2Mo9Al）等离子熔覆层的结构和特性

研究了由高速钼钢 S2-9-2 (W2Mo9Al) 制成的总厚度为 9 毫米的四层涂层的结构。涂层是在 41CrMo4 (30CrMnSi) 钢基体上通过在氩气和氮气混合物中使用粉末线进行等离子熔覆获得的。通过电子显微镜和样品切片上的能量色散 X 射线光谱（EDS）研究了涂层的结构。结果表明，沉积层的微硬度在 5.2 - 6.6 GPa 范围内变化。这是因为在沉积层中形成了一种非均质结构，由铁基固溶体的晶粒组成，在晶粒的接缝处和边界上有主要富含钼、铬和钨的共晶夹杂物。在晶粒体积中可以观察到亚晶粒结构，表明沉积层的亚结构硬化。亚晶粒的大小在 1.5 至 2.5 μm 之间。在 41CrMo 钢上沉积的 S2-9-2 合金层呈现出类似框架的结构。熔覆层的主要合金元素是铁、钼、铬、钨和铝。

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来源期刊

Metal Science and Heat Treatment 工程技术-冶金工程

CiteScore

1.20

自引率

16.70%

发文量

102

审稿时长

4-8 weeks

期刊介绍： Metal Science and Heat Treatment presents new fundamental and practical research in physical metallurgy, heat treatment equipment, and surface engineering. Topics covered include: New structural, high temperature, tool and precision steels; Cold-resistant, corrosion-resistant and radiation-resistant steels; Steels with rapid decline of induced properties; Alloys with shape memory effect; Bulk-amorphyzable metal alloys; Microcrystalline alloys; Nano materials and foam materials for medical use.