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H13钢中Mg-Al-O系夹杂物的形成机理及控制
引用本文:黄宇,谢有,成国光,陈列,张燕东,严清忠. H13钢中Mg-Al-O系夹杂物的形成机理及控制[J]. 钢铁, 2017, 52(6): 34-39. DOI: 10.13228/j.boyuan.issn0449-749x.20160461
作者姓名:黄宇  谢有  成国光  陈列  张燕东  严清忠
作者单位:1. 北京科技大学钢铁冶金新技术国家重点实验室, 北京 100083 2. 西宁特钢股份有限公司技术中心,青海 西宁 810005
基金项目:国家自然科学基金资助项目
摘    要: 通过对保护气氛电渣重熔工艺和普通电渣重熔工艺H13钢的锻材成分、氧化物夹杂的组成分析,研究了电渣重熔工艺H13钢中Mg-Al-O系夹杂物的形成机理及控制问题,并通过Factsage软件对Mg-Al-O系夹杂物的各优势区进行了理论计算。结果表明,保护气氛电渣重熔工艺中氧质量分数较低,仅为0.001 5%,氧化物夹杂主要是MgO·Al2O3,1~3 μm的小尺寸占比达到了62.5%;普通电渣重熔工艺中氧质量分数较高,达到了0.002 4%,Mg-Al-O系夹杂物以72.5%Al2O3+27.5%MgO·Al2O3为主,含有4%的5~8 μm大尺寸夹杂物,1~3 μm小尺寸占比仅为37.8%,尺寸偏大。钢液中镁、氧质量分数的变化对MgO·Al2O3的优势区域影响较大,高镁、低氧有利于MgO·Al2O3生成,减小H13钢中氧化物夹杂尺寸。但MgO·Al2O3会作为大尺寸碳氮化物(Ti,Nb,V)(C,N)异质形核核心,后期对此问题还要做进一步研究。

关 键 词:H13钢  电渣重熔  夹杂物  热力学计算  
收稿时间:2016-10-17

Formation mechanism and control of Mg-Al-O inclusions in H13 steel
HUANG Yu,XIE You,CHENG Guo-guang,CHEN Lie,ZHANG Yan-dong,YAN Qing-zhong. Formation mechanism and control of Mg-Al-O inclusions in H13 steel[J]. Iron & Steel, 2017, 52(6): 34-39. DOI: 10.13228/j.boyuan.issn0449-749x.20160461
Authors:HUANG Yu  XIE You  CHENG Guo-guang  CHEN Lie  ZHANG Yan-dong  YAN Qing-zhong
Affiliation:(1. State Key Laboratory of Advanced Metallurgy, University of Science and Technology Beijing, Beijing 100083,China 2. Technology Center, Xining Special Steel Co., Ltd., Xining 810005, Qinghai, China)
Abstract:The compositions of the forging materials and oxide inclusions in the H13 steel produced through protective atmosphere electro slag remelting process (PESR) and common electro slag remelting process(ESR)were analyzed. The formation mechanism and control of Mg-Al-O inclusions in H13 steel were studied and the dominant area was calculated through the thermodynamic software Factsage. The results showed that the oxygen content of H13 steel produced by PESR is only 0.0015%,the oxide inclusions were mainly MgO·Al2O3 and the inclusion proportion of small size at 1-3μm reached to 62.5%. However,the oxygen content of H13 steel produced by ESR reached to 0.0024%,the oxide in-clusions were mainly 72.5%Al2O3+27.5%MgO·Al2O3 and the proportion of large size at 5-8μm is 4%while the propor-tion ofthe small size at 1-3μm just accounts for 37.8%. The size of Al2O3 was larger than MgO · Al2O3. The changes of [Mg] and [O] content in liquid steel have great influence on the dominant area of MgO · Al2O3,and the high [Mg] con-tent and low [O] content were beneficial to the formation of MgO · Al2O3,but decrease the size of oxide inclusions in H13 steel. However,the inclusion of MgO · Al2O3 at large size can be the heterogeneous nuclei of (Ti,Nb,V) (C,N), which will be discussed in the future.
Keywords:H13 steel  electroslagremelting process  inclusion  thermodynamic calculation
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