Shijie Wang, Xingyu Lu, Jian Guan, Hongwei Liu, Chengshuai Lei, Chen Sun, Lina Zhou, Ming Liu, Ju Huang, Yanfei Cao, Qiang Wang, Dianzhong Li
{"title":"The formation mechanism of δ-ferrite and its evolution behavior in M50NiL steel","authors":"Shijie Wang, Xingyu Lu, Jian Guan, Hongwei Liu, Chengshuai Lei, Chen Sun, Lina Zhou, Ming Liu, Ju Huang, Yanfei Cao, Qiang Wang, Dianzhong Li","doi":"10.1016/j.jmrt.2024.07.088","DOIUrl":null,"url":null,"abstract":"Residual δ-ferrite is ubiquitous in M50NiL bearing steel and seriously deteriorates impact toughness. In the present work, the formation mechanism of δ-ferrite in M50NiL steel and the influence of element segregation on its formation process were investigated. The residual δ-ferrite was proved to form directly from the final liquid phase at the end of solidification due to serious segregation of Mo and V elements. Calculation results indicate that the segregation of Mo and V elements expanded the “L + δ\" two-phase region and stabilized δ-ferrite. Due to the high concentration of Mo and V, large-sized V-rich MC and Mo-rich MC carbides would precipitate in δ-ferrite at 900–1200 °C if the cooling rate is slow. When kept at 1200 °C for no more than 30 min, Mo and V elements derived from the decomposition of large-sized carbides are preferentially diffused into δ-ferrite, enhancing the stability of δ-ferrite. To achieve the effective elimination of δ-ferrite in M50NiL steel, it is necessary to keep the ingot at 1200 °C for at least 20 h.","PeriodicalId":501120,"journal":{"name":"Journal of Materials Research and Technology","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2024-07-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Materials Research and Technology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1016/j.jmrt.2024.07.088","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Residual δ-ferrite is ubiquitous in M50NiL bearing steel and seriously deteriorates impact toughness. In the present work, the formation mechanism of δ-ferrite in M50NiL steel and the influence of element segregation on its formation process were investigated. The residual δ-ferrite was proved to form directly from the final liquid phase at the end of solidification due to serious segregation of Mo and V elements. Calculation results indicate that the segregation of Mo and V elements expanded the “L + δ" two-phase region and stabilized δ-ferrite. Due to the high concentration of Mo and V, large-sized V-rich MC and Mo-rich MC carbides would precipitate in δ-ferrite at 900–1200 °C if the cooling rate is slow. When kept at 1200 °C for no more than 30 min, Mo and V elements derived from the decomposition of large-sized carbides are preferentially diffused into δ-ferrite, enhancing the stability of δ-ferrite. To achieve the effective elimination of δ-ferrite in M50NiL steel, it is necessary to keep the ingot at 1200 °C for at least 20 h.
残余δ-铁素体在 M50NiL 轴承钢中普遍存在,严重降低了冲击韧性。本文研究了 M50NiL 钢中 δ-铁素体的形成机理以及元素偏析对其形成过程的影响。研究证明,由于 Mo 和 V 元素的严重偏析,残余的 δ-铁素体是在凝固末期直接从最终液相中形成的。计算结果表明,Mo 和 V 元素的偏析扩大了 "L + δ "两相区,并稳定了 δ-铁素体。由于 Mo 和 V 的浓度较高,如果冷却速度较慢,900-1200 ℃ 时,δ-铁素体中会析出大尺寸的富 V MC 和富 Mo MC 碳化物。当在 1200 ℃ 下保持不超过 30 分钟时,大尺寸碳化物分解产生的 Mo 和 V 元素会优先扩散到 δ-铁氧体中,从而增强了 δ-铁氧体的稳定性。为了有效消除 M50NiL 钢中的δ-铁素体,必须将钢锭在 1200 °C 下保持至少 20 小时。
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