授课课程: 1、增材制造技术; 2、生产系统网络与通信 研究方向: 1、金属增材制造; 2、金属基复合材料; 3、材料晶界/界面工程; 科研项目: 1、国家重点研发计划项目增材制造与激光制造重点专项,2018YFB1105900,精密激光增材制造-电解加工整体制造技术:疲劳测试,2018.5-2021.4,85万元,结题,参与 2、山东省重点研发计划项目,2018GGX103017,纳米陶瓷个性化高端膝关节植入物增材制造形性可控共性关键技术,2018/01-2019/12,25万,参与 3、国家自然科学基金面上项目,51471100,双相不锈钢内界面分布特征与演变机理研究,2015/01-2018/12,84万元,已结题,参与 代表性科研成果: [1] Haoqing Li, Ming Wang, Dianjun Lou, Weilong Xia, Xiaoying Fang*. 2020, Journal of Materials Science and Technology. 45:145–156. Microstructural features of biomedical cobalt-chromiummolybdenum (CoCrMo) alloy from powder bed fusion to aging heat treatment. (Q1, SCI一区, IF=10.319) [2]Haoqing Li, Falei Shen, Hong Guo, Ran Zong, Xiaoying Fang*, Lijuan Zhang*. 2022, Scripta Materialia. 210(15): 114468. In-situ manipulating microstructure of CoCrMo alloy using selective laser melting with a novel scanning strategy. (Q1, SCI一区, IF=6.302) [3] Haoqing Li, Shuai Shao, Xuepeng Ren, Hong Guo, Dianjun Lou, Weilong Xia, Xiaoying Fang*. 2020, Journal of Material Science. 55: 16780–16790. Grain boundary character distribution in the CoCrMo alloy processed by selective laser melting and post heat treatment. (Q1, SCI三区, IF=4.682) [4] Haoqing Li, Hong Guo, Falei Shen , Dianjun Lou, Weilong Xia, Xiaoying Fang*. 2021, Journal of the Mechanical Behavior of Biomedical Materials. 119: 104520. Tribological and corrosion performance of the plasma-sprayed conformal ceramic coating on selective laser melted CoCrMo alloy. (Q1, SCI二区, IF=4.042) [5] Xiaoying Fang*, Haoqing Li, Yuebin Guo, 2018, Material Characterization. 143(9):182-190. Characterization of texture and grain boundary distributions of selected laser melted Inconel 625 alloy.(Q1, SCI一区, IF=4.537) [6] Haoqing Li, Ran Zong, Xuepeng Ren, Xiaoying Fang. Effective prediction of residual stress and distortion of artificial knee joints by selective laser melting. Int J Adv Manuf Techn, 2022, 123: 591–601. (Q1, SCI三区, IF=3.563) [7] 李昊卿, 田玉晶, 赵而团, 郭红, 方晓英*. 2020, 《材料工程》 48(2) :133-139. S32750双相不锈钢内界面特征分布对力学和腐蚀性能的影响. (EI) [8] Shuyu Liu, Haoqing Li, Congxiang Qin, Ran Zong, Xiaoying Fang*. 2020, Materials and Design 191: 108642. The effect of energy density on texture and of energy density on texture and mechanical anisotropy in selective laser melted Inconel 718.(Q1, SCI一区, IF=9.417) [9] Ming Wang, Haoqing Li, Dianjun Lou, Congxiang Qin, Xiaoying Fang*, Yuebin Guo, 2019, Materials Science & Engineering A. 743: 123–137. Microstructure anisotropy and its implication in mechanical properties of biomedical titanium alloy processed by electron beam melting.(Q1, SCI一区, IF=6.044) [10] Ming Wang, Haoqing Li, Liu Feng, Shuyu Liu, Xiaoying Fang*. 2020, Rare. Metals. 40(8):2118–2126. Evolution of microstructure and intervariant boundaries of α phase in electron beam melted and heattreated Ti-6Al-4V alloy. (Q1, SCI二区, IF=6.318) [11] Xuepeng Ren, Haoqing Li, Hong Guo, Falei Shen, Congxiang Qin, Ertuan Zhao, Xiaoying Fang*, 2021, Materials Science & Engineering A. 817: 141384. A comparative study on mechanical properties of Ti–6Al–4V alloy processed by additive manufacturing vs. traditional processing. (Q1, SCI一区, IF=6.044) [12] 一种激光增材制造钴铬钼合金两相比例的调控方法,中国发明专利ZL202110399053.5.7,发明人: 方晓英;娄殿军;李昊卿;夏维龙;任雪彭。
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