【代表性学术著作、论文】 [1] Xiao Yuanyou, Wang Guocheng, Jin Pengliang, et al. Atomistic nucleation mechanism of titanium oxides in steel based on homogeneous and heterogeneous modes[J]. Metallurgical and Materials Transactions B, 2021:1-17.
[2] Xiao Yuanyou, Cao Lei, Wang Guocheng, et al. Formation and Precipitation Mechanism of TiN Inclusion in Mg-treated GCr15 Bearing Steel[J]. Metallurgical and Materials Transactions B, 2022, 53, 916-930.
[3] Xiao Yuanyou, Jin Pengliang, Wang Guocheng, et al. New insight of the structural evolution of the TiO2-Ti3O5-Ti2O3-TiO-TixOyCz-TiC systems at nanoscale during reduction process[J]. Physical Chemistry Chemical Physics, 2021,23, 4796-4804.
[4] Xiao Yuanyou, Wang Guocheng, Lei Hong, et al. Formation pathways for MgO·Al2O3 inclusions in iron melt[J]. Journal of Alloys and Compounds, 2019: 152243.
[5] Xiao Yuanyou, Lei Hong, Yang Bin, Wang Guocheng, Zhao Yang, Wang Qi. Thermodynamic insight into the growth of calcia inclusions at the nanoscale: the case of Fe-O-Ca melt [J].RSC Advance, 2019, 9 (20):11135-11141.
[6] Xiao Yuanyou, Lei Hong, Yang Bin, Wang Guocheng, Wang Qi, Jin Wei. Nucleation and growth for magnesia inclusion in Fe-O-Mg melt[J]. RSC Advances, 2018, 8(67): 38336-38345.
[7] Xiao Yuanyou, Lei Hong, Zhang Hongwei, Wang Guocheng, Wang Qi. Structural evolution of calcia during calcium deoxidation in Fe-O-Ca melt[J]. Physical Chemistry Chemical Physics, 2019, 21(25): 13847-13855.
[8] Xiao Yuanyou, Lei Hong, Yang Bin, Wang Guocheng, Wang Qi, Jin Wei. Thermodynamic modelling on nanoscale growth of magnesia inclusion in Fe-O-Mg melt[J]. Metals, 2019, 9(2): 174.
[9] Wang Guocheng, Xiao Yuanyou, Zhao Changming, et al. Atomic cluster aggregates in nucleation of solid alumina inclusion in the aluminum deoxidation for liquid iron[J]. Metallurgical and Materials Transactions B, 2018, 49(1): 282-290.
[10] Wang Guocheng, Xiao Yuanyou, Song Yulai, et al. A density functional study on the aggregation of alumina clusters[J]. Research on Chemical Intermediates, 2017, 43(3): 1447-1463.
[11] Yuan Xinghu, Xiao Yuanyou, Wang Guocheng, et al. TiN inducing ferrite nucleation based on the bcc-Fe/TiN interfaces formation at atomic scale by first-principles calculation[J]. Computational Materials Science, 2021, 197, 110570
[12] Wang Guocheng, Zhao Yang, Xiao Yuanyou, et al. Diversified aggregated patterns of alumina inclusions in high-Al iron melt[J]. Metallurgical and Materials Transactions B, 2020:1-16.
[13] 王国承, 肖远悠, 宋玉来, 等. 钢液中原子与夹杂物颗粒间的介尺度物相及二步形核[J]. 炼钢, 2016, 32(4):60-72.
[14] 曹磊, 金朋亮, 肖远悠, 等. 镁处理低碳钢中MgAl2O4夹杂物的聚集行为[J]. 钢铁, 2020, 55(11): 37-46
【专利】 1.专利人:王国承;云茂帆;肖远悠;艾新港;赵昌明;张崇民。申请号:CN201510297961.8,一种抑制短路流的中间包湍流抑制器。
2.专利人:王国承;肖远悠;许涛;曹磊;艾新港。申请号:CN202011533052.7,提高铝脱氧钢/含铝钢中非金属夹杂物塑性的方法及钢材。
【主要科研项目】 (1)辽宁省教育厅项目,凝固及冷却过程中钢中硫化物夹杂析出演变机制,2022-2025,主持
(2)辽宁省科技厅项目,钢液中纳米夹杂物的界面性质研究(2022-BS-282),2022-2024,主持
(3)东北大学EPM教育部重点实验室开放课题,钢中MgAl2O4夹杂物的析出与演变行为 (NEU-EPM-022),2022-2024,主持。
(4)东北大学优秀学生科研创新项目,Fe-O-Al体系中铝脱氧及夹杂物形核机理(N170906004),2018-2019,主持。
(5)东北大学EPM教育部重点实验室项目,基于二步形核理论的钢中强脱氧产物尺寸控制基础研究(NEU-EPM-001),2018-2019,参与。
(6)国家自然科学基金项目,基于二步形核理论的钢液凝固过程中夹杂物细化控制基础研究(51874170),2019-2022,参与。
(7)国家自然科学基金项目,高洁净钢液中纳米尺度夹杂物形成及演变过程的热力学研究(51004054),2011-2013,参与。
(8)米兰(中国)-鞍钢海工钢国家重点实验室项目,基于二步形核理论的钢种强脱氧产物尺寸控制基础研究(SKLMEA - USTL - 201706),2018-2019,参与。