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刘晨曦 讲师

先进金属材料研究所

电话: 无

Email: cxliu@tju.edu.cn

研究所: 先进金属材料研究所

个人简历

教育背景:

2008.9 – 2012.1 天津大学大学 材料学院 金属材料系 工学博士
2005.9 – 2008.3石家庄铁道大学 材料学院 工学硕士

2001.9 – 2005.6石家庄铁道大学 材料学院 金属材料系 工学学士

工作经历:

2014.10 - 至今,天津大学,材料科学与工程学院,讲师
2013.3 – 2014.10,天津市科学技术信息研究所
2012.4 – 2013.3,中国第一重型机械集团,能源装备材料科学研究所

研究方向

高性能钢铁材料及加工。

承担项目

 高Cr铁素体耐热钢扩散连接界面结合机制及其接头强韧化研究(国家自然科学基金青年项目)

标志性成果

发表文章、专利、专著(代表作):

[1] J. Chen, Y. Liu, C. Liu*, X. Zhou, H. Li, Study on microstructural evolution and constitutive modeling for hot deformation behavior of a low-carbon RAFM steel, Journal of Materials Research, 32 (2017) 1376-1385.

[2] J. Chen, Y. Liu, C. Liu*, B. Yan, H. Li, Effects of tantalum on austenitic transformation kinetics of RAFM steel, Journal of Iron and Steel Research, International, 24 (2017) 705-710.

[3] Y. Li, Y. Liu*, C. Liu*, C. Li, Y. Huang, H. Li, W. Li, Carbide dissolution and precipitation in cold-rolled type 347H austenitic heat-resistant steel, Materials Letters, 189 (2017) 70-73.

[4] B. Yan, Y. Liu, Z. Wang, C. Liu*, Y. Si, H. Li, J. Yu, The Effect of Precipitate Evolution on Austenite Grain Growth in RAFM Steel, Materials, 10 (2017) 1017.

[5] C. Liu, Q. Zhao, Y. Liu*, C. Wei, H. Li, Microstructural evolution of high Cr ferrite/martensite steel after deformation in metastable austenite zone, Fusion Engineering and Design, (2017). In press

[6] C. Liu, L. Shi, Y. Liu*, C. Li, H. Li, Q. Guo, Acicular ferrite formation during isothermal holding in HSLA steel, Journal of Materials Science, 51 (2016) 3555-3563.

[7] C. Liu, Y. Shao, J. Chen, Y. Liu*, Non-instantaneous growth characteristics of martensitic transformation in high Cr ferritic creep-resistant steel, Applied Physics A, 122 (2016) 715-721.

[8] J. Chen, C. Liu*, Y. Liu, B. Yan, H. Li, Effects of tantalum content on the microstructure and mechanical properties of low-carbon RAFM steel, Journal of Nuclear Materials, 479 (2016) 295-301.

[9] C. Liu, Y. Liu*, B. Ning, Development of the modified high Cr ferritic heat-resistant steel, Materials Research Innovations, 19 (2015) S8-813-S818-818.

[10] Y. Liu, C. Liu, F. Sommer*, E.J. Mittemeijer, Martensite formation kinetics of substitutional Fe–0.7at.%Al alloy under uniaxial compressive stress, Acta Materialia, 98 (2015) 164-174.