Modification of MnS inclusion by tellurium in 38MnVS6 micro-alloyed steel

Ping Shen, Lei Zhou, Qian-kun Yang, Zhi-qi Zeng, Ke-nan Ai, Jianxun Fu
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引用次数: 12

Abstract

In 38MnVS6 steel, the morphology of sulfide inclusion has a strong influence on the fatigue life and machinability of the steel. In most cases, the MnS inclusions show strip morphology after rolling, which significantly affects the steel quality. Usually, the MnS inclusion with a spherical morphology is the best morphology for the steel quality. In the present work, tellurium was applied to 38MnVS6 micro-alloyed steel to control the MnS inclusion. Trace tellurium was added into 38MnVS6 steel and the effect of Te on the morphology, composition, size and distribution of MnS inclusions were investigated. Experimental results show that with the increase of Te content, the equivalent diameter and the aspect ratio of inclusion decrease strikingly, and the number of inclusions with small aspect ratio increases. The inclusions are dissociated and spherized. The SEM-EDS analysis indicates that the trace Te mainly dissolves in MnS inclusion. Once the MnS is saturated with Te, MnTe starts to generate and wraps MnS. The critical Te/S value for the formation of MnTe in the 38MnV6 steel is determined to be approximately 0.075. With the increase of Te/S ratio, the aspect ratio of MnS inclusion decreases and gradually reaches a constant level. The Te/S value in the 38MnVS6 steel corresponding to the change of aspect ratio from decreasing to constant ranges from 0.096 to 0.255. This is most likely to be caused by the saturation of Te in the MnS inclusion. After adding Te in the steel, rod-like MnS inclusion is modified to small inclusion and the smaller the MnS inclusion, the lower the aspect ratio.
碲对38MnVS6微合金钢中MnS夹杂物的改性
在38MnVS6钢中,硫化物夹杂物的形态对钢的疲劳寿命和可加工性有很大的影响。轧后MnS夹杂物大多呈条状,对钢的质量影响较大。通常,具有球形形貌的MnS夹杂物是钢质量的最佳形貌。在38MnVS6微合金钢中加入碲以控制MnS夹杂物。在38MnVS6钢中加入微量碲,研究了微量碲对MnS夹杂物形貌、组成、大小和分布的影响。实验结果表明,随着Te含量的增加,包裹体的等效直径和长径比明显减小,小长径比的包裹体数量增加。包裹体被解离和球化。SEM-EDS分析表明,微量Te主要溶解在MnS包裹体中。一旦MnS被Te饱和,MnTe就开始生成并包裹MnS。确定38MnV6钢中形成MnTe的临界Te/S值约为0.075。随着Te/S比的增大,MnS包裹体的纵横比逐渐减小并趋于恒定。宽高比由减小到恒定变化所对应的38MnVS6钢的Te/S值在0.096 ~ 0.255之间。这很可能是由MnS包裹体中Te的饱和引起的。在钢中加入Te后,棒状MnS夹杂物被改性为小夹杂物,MnS夹杂物越小,纵横比越低。
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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