Formation of microstructure in rail steel grinding balls depending on quenching medium parameters

Izvestiya. Ferrous Metallurgy Pub Date : 2023-12-29 DOI:10.17073/0368-0797-2023-6-645-652

A. Umanskii, V. V. Baidin, A. Simachev, L. Dumova, S. O. Safonov

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Abstract

Studies of the formation of microstructure of grinding balls from the rejects of rail steel were carried out during their quenching in various polymer media. At the first stage, based on studies of the cooling capacity of solutions of polymers PCM and Thermovit with varying concentrations and temperatures, the authors constructed the cooling curves of grinding balls made of K76F rail steel. It was found that at concentration of these polymers in an aqueous solution of 2 and 4 %, cooling rate of grinding balls made of K76F steel is almost identical at solution temperatures of 20 and 30 °C and significantly decreases when the temperature of the polymer solution increases to 40 °C. At the same time, the most noticeable decrease in the cooling rate is characteristic of PCM polymer with its concentration at the level of 2 %. At the second stage, the authors carried out metallographic studies of the microstructure of grinding balls made of K76F rail steel, which were quenched in laboratory conditions using polymers PCM and Thermovit with concentrations of 2 – 4 % and temperature of 20 – 40 °C. As a result, it was determined that the use of the PCM solution for quenching balls provides a significantly higher quality of microstructure and hardness of heat-treated balls compared to the use of the Thermovit polymer. At the same time, varying the concentration and temperature of the PCM polymer quenching medium allows one to obtain grinding balls with different performance characteristics that determine the potential areas of their application. Thus, quenching of balls in a solution of the specified polymer with concentration of 2 % and temperature of 20 – 30 °C ensures the production of balls with high hardness (corresponding to the IV hardness group according to the state standard GOST 7524 – 2015), and the use of a solution of the same polymer with concentration of 4 % and temperature of 20 – 30 °С for quenching creates the possibility of producing balls with lower hardness, but potentially high impact resistance.

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取决于淬火介质参数的轨道钢磨球微观结构的形成

在各种聚合物介质中淬火期间，对铁轨钢废料磨球微观结构的形成进行了研究。在第一阶段，根据对不同浓度和温度的聚合物 PCM 和 Thermovit 溶液冷却能力的研究，作者构建了 K76F 轨道钢制成的磨球的冷却曲线。研究发现，当这些聚合物在水溶液中的浓度为 2% 和 4% 时，K76F 钢制磨球在溶液温度为 20°C 和 30°C 时的冷却率几乎相同，而当聚合物溶液的温度升高到 40°C 时，冷却率则明显降低。同时，PCM 聚合物浓度为 2% 时，冷却率的下降最为明显。在第二阶段，作者对 K76F 钢轨磨球的微观结构进行了金相研究，这些磨球在实验室条件下使用浓度为 2 - 4 %、温度为 20 - 40 °C 的聚合物 PCM 和 Thermovit 进行了淬火。结果表明，与使用 Thermovit 聚合物相比，使用 PCM 溶液对钢球进行淬火可显著提高热处理钢球的微观结构质量和硬度。同时，通过改变 PCM 聚合物淬火介质的浓度和温度，可以获得具有不同性能特征的磨球，从而确定其潜在的应用领域。因此，在浓度为 2 %、温度为 20 - 30 °C 的指定聚合物溶液中淬火可确保生产出高硬度的磨球（根据国家标准 GOST 7524 - 2015，相当于 IV 硬度组），而使用浓度为 4 %、温度为 20 - 30 °С 的相同聚合物溶液淬火可生产出硬度较低但具有潜在高抗冲击性的磨球。

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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Izvestiya. Ferrous Metallurgy

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