Investigation of the surfaced metal of the Fe–Cr–Ni–Mn–Mo–Ti–Nb–C system for operation under high-temperature gas-abrasive wear

Voprosy Materialovedeniya Pub Date : 2022-10-31 DOI:10.22349/1994-6716-2022-111-3-17-28

D. Priyatkin, A. Artemyev, V. Lysak

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Abstract

Compositions of flux-cored wires for electric arc surfacing of alloys of the Fe-Cr-Ni-Mn-Mo-Ti-Nb-C alloy system, resistant to high-temperature gas-abrasive wear, were developed. The deposited alloys were studied by optical and electron microscopy, X-ray mi-crospectral and X-ray diffraction analysis. The influence of the carbon content in the alloy on its structural-phase composition, hardness, and wear resistance at normal and elevated temperatures up to 600°C was revealed. It was established that increasing the carbon content in the alloy from 1.2 to 2.8 wt. % leads to increasing the volume fraction of (Cr, Fe)xCy carbides involved in the formation of the eutectic austenite-carbide matrix of the alloy at 6 times. Their morphology also changes from (Fe, Cr)23C6 to (Fe, Cr)7C3. In this case, the content of (Ti, Nb, Mo)xCy and MoxC carbides in the alloy changes insignificantly, and their average size increases by 10%. It has been established that the formation of a composite structure in the alloy contributes to its high resistance to gas-abrasive wear at a temperature of 600°C. The wear resistance of the developed alloy is comparable to a foreign industrial analogue at a much lower cost.

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Fe-Cr-Ni-Mn-Mo-Ti-Nb-C体系在高温气体磨料磨损下表面金属的研究

研制了耐高温气体磨料磨损的Fe-Cr-Ni-Mn-Mo-Ti-Nb-C合金电弧堆焊用药芯焊丝成分。采用光学显微镜、电子显微镜、x射线微光谱和x射线衍射分析对合金进行了研究。揭示了合金中碳含量对其组织相组成、硬度和常温及高达600℃高温下耐磨性的影响。结果表明，将合金中的碳含量从1.2 wt. %提高到2.8 wt. %，参与合金共晶奥氏体-碳化物基体形成的(Cr, Fe)xCy碳化物体积分数提高了6倍。它们的形态也由(Fe, Cr)23C6转变为(Fe, Cr)7C3。在此情况下，合金中(Ti, Nb, Mo)xCy和MoxC碳化物的含量变化不大，平均尺寸增大10%。在600℃的高温下，合金中复合结构的形成使其具有较高的抗气体磨料磨损性能。所开发的合金的耐磨性可与国外工业类似物相媲美，成本要低得多。

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