Specific Features of the Formation of Diffusion Coatings Prepared by a Combined Chemical Thermal Treatment of Structural Steels

IF 0.4 Q4 METALLURGY & METALLURGICAL ENGINEERING

Russian Metallurgy (Metally) Pub Date : 2025-04-29 DOI:10.1134/S0036029525700399

A. G. Sokolov, E. E. Bobylev, R. A. Popov

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引用次数: 0

Abstract

The main methods for enhancing durability of products prepared from structural steels are considered. The technologies of diffusion alloying from low-melting liquid-metal solutions (DALMMS) and a technology developed for the combined diffusion alloying of surface layers of the material of products that includes DALMMS and carburizing, namely, the combined chemical thermal treatment (CCTT), are described. The purpose of the work is to elucidate the influence of the steel compositions on the formation and elemental composition of diffusion-alloyed chromium-based surface layers (coatings) and to reveal differences and specific features in the formation of the diffusion-alloyed coatings after DALMMS and CCTT. Cylindrical specimens 20 mm in diameter and 30 mm long are subjected to DALMMS. The specimens are prepared from the carbon and alloyed steels: low-carbon steels St3 and 20Kh13, medium-carbon steels 40Kh and 40Kh13, and austenitic steel 12Kh18N10T. Some specimens are preliminarily subjected to vacuum carburizing. A lead–bismuth eutectic melt into which a specified amount of chromium is introduced is used as a technological medium (transport melt) for DALMMS. Metallographic studies are carried out on microsections prepared using a standard procedure. The thicknesses and structures of the coatings are determined on a Dura Scan Falcon 500 microhardness meter. The elemental compositions of the coatings are determined by electron probe microanalysis (EPMA) on a Tescan Lyra 3 scanning electron microscope equipped with an Oxford Ultim MAX system. The DALMMS and CCTT processes result in the formation of diffusion coatings. The thickness and elemental composition of the coatings depend on the trade mark of the steel and applied technology. After DALMMS, the percentage chromium content varies from 96.9 to 91.1%. The maximum concentration (96.9%) is observed on St3 steel. After CCTT, the Cr concentrations on the surfaces of all steels decrease compared to those on the coatings prepared via the DALMMS technology on the following steels: for St3, from 96.9 to 66.8%; for 40Kh, from 91.1 to 63.18%; for 20Kh13, from 93.18 to 62.54%; and for 12Kh18N10T, from 92.92 to 64.77%. The total thickness of the diffusion-alloyed coatings formed on all alloys under study ranges from 17 to 17.5 μm.

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结构钢复合化学热处理扩散涂层形成的特殊特征

介绍了提高结构钢制品耐久性的主要方法。介绍了低熔点液态金属溶液（DALMMS）扩散合金化技术，以及开发的产品材料表层联合扩散合金化技术（包括DALMMS和渗碳），即联合化学热处理（CCTT）。本研究的目的是阐明钢成分对扩散合金铬基表层（涂层）形成和元素组成的影响，揭示经DALMMS和CCTT处理后扩散合金涂层形成的差异和具体特征。直径为20mm，长为30mm的圆柱形试样经受了DALMMS。试样由碳钢和合金钢制备：低碳钢St3和20Kh13，中碳钢40Kh和40Kh13，奥氏体钢12Kh18N10T。部分试样初步进行了真空渗碳处理。引入一定量铬的铅铋共晶熔体被用作DALMMS的技术介质（传输熔体）。金相研究是在使用标准程序制备的显微切片上进行的。涂层的厚度和结构由Dura Scan Falcon 500显微硬度计测定。采用电子探针微量分析（EPMA），在配备牛津Ultim MAX系统的Tescan Lyra 3扫描电子显微镜上测定涂层的元素组成。DALMMS和CCTT工艺导致扩散涂层的形成。镀层的厚度和元素组成取决于钢材的商标和应用技术。经DALMMS处理后，铬含量在96.9 ~ 91.1%之间变化。St3钢的浓度最高，为96.9%。经过CCTT处理后，所有钢表面的Cr浓度均比通过DALMMS技术制备的涂层有所下降，其中St3的Cr浓度从96.9下降到66.8%；40Kh时，从91.1 ~ 63.18%；20Kh13从93.18%上升到62.54%；12Kh18N10T从92.92%增加到64.77%。所有合金表面形成的扩散合金涂层的总厚度为17 ~ 17.5 μm。

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来源期刊

Russian Metallurgy (Metally) METALLURGY & METALLURGICAL ENGINEERING-

CiteScore

0.70

自引率

25.00%

发文量

140

期刊介绍： Russian Metallurgy (Metally) publishes results of original experimental and theoretical research in the form of reviews and regular articles devoted to topical problems of metallurgy, physical metallurgy, and treatment of ferrous, nonferrous, rare, and other metals and alloys, intermetallic compounds, and metallic composite materials. The journal focuses on physicochemical properties of metallurgical materials (ores, slags, matters, and melts of metals and alloys); physicochemical processes (thermodynamics and kinetics of pyrometallurgical, hydrometallurgical, electrochemical, and other processes); theoretical metallurgy; metal forming; thermoplastic and thermochemical treatment; computation and experimental determination of phase diagrams and thermokinetic diagrams; mechanisms and kinetics of phase transitions in metallic materials; relations between the chemical composition, phase and structural states of materials and their physicochemical and service properties; interaction between metallic materials and external media; and effects of radiation on these materials.