唐海燕
近期热点
资料介绍
个人简历
1991年于内蒙古大学获得化学学士学位,2004年于内蒙古大学获得物理化学硕士学位,2008年于北京科技大学获得钢铁冶金博士学位。1991~2001年在内蒙古包头从事稀土材料的开发与应用工作,工程师;2008年博士毕业后留北京科技大学冶金与生态工程学院钢铁冶金系从事教学与科研工作;2009~2012年北京科技大学和新兴铸管集团公司联合培养博士后;2015.3—2015.9澳大利亚昆士兰大学访问学者。近年来主持科研、教研项目多项,在国内外期刊和会议发表科研论文80余篇,其中40余篇被SCI、EI收录。编写《特殊钢冶金过程工程》双语讲义1部,参与《冶金物理化学》的教材修订。发表教研论文多篇。指导的硕士研究生获“国家奖学金”(2016年,2017年),院“研究生学术之星”(2015,2016年),校“优秀硕士毕业论文”(2017年),“北京市优秀毕业生”(2016,2017年)等荣誉研究领域
特殊钢冶金; 钢的洁净化与非金属夹杂物控制; 冶金过程模拟仿真; 精炼渣优化理论与工艺; 炼钢炉渣的碳酸化利用。近期论文
1) Haiyan Tang*, Luzhao Guo, Guanghui Wu, et al. Hydrodynamic Modeling and Mathematical Simulation on Flow Field and Inclusion Removal in a Seven-Strand Continuous Casting Tundish with Channel-type Induction Heating, Metals, 2018, 8(6): 374-390. 2) Haiyan Tang, Jinwen Liu, Shuo Zhang, et al. A novel dual plugs gas blowing mode for efficient ladle metallurgy, Ironmaking & Steelmaking, 2019,46(5):405-415.3) H. Y. Tang, G. H. Wu, Y. Wang, et al. Comparative evaluation investigation of slag corrosion on Al2O3 and MgO-Al2O3 refractories via experiments and thermodynamic simulations. Ceramics International, 2017, 12, 43(18): 16502-16511. 4) H. Y. Tang*, Y. Wang, T. Wu, et al. Characteristics analysis of inclusion of 60Si2Mn–Cr spring steel via experiments and thermodynamic calculations, Ironmaking & Steelmaking, 2017, 44(5): 377-388.5) Hai-yan TANG*, Yong WANG, Guang-hui WU, et al. Experimental Study on Inclusion Evolution by Refining Slag for 50CrVA Spring Steel,Journal of Iron and Steel Research International, 2017, 24(5): 15-23. 6) Yong Wang, Haiyan Tang*, Tuo Wu, et al. Effect of Acid-Soluble Aluminum on the Evolution of Non-metallic Inclusions in Spring Steel. METALLURGICAL AND MATERIALS TRANSACTIONS B, 2017, 48(2): 943~9557) Tang Haiyan*, Guo Xiaochen, Wu Guanghui, et al. Effect of Gas Blown Modes on Mixing Phenomena in a Bottom Stirring Ladle with Dual Plugs, ISIJ International, 2016, 56(12): 2161–2170. 8) Tang Haiyan*, Wu Tuo, Wang Jianlei, et al. Mass Action concentration model of CaO-MgO-FeO-Al2O3-SiO2 slag systems and its application to the formation mechanism of MgO•Al2O3 spinel-type inclusion. Metallurgical Research and Technology, 2015, 112(4): 409-423. 相关热点