个人简介
2017.01 至2017.12: 中华人民共和国科学技术部,中国国际核聚变能源计划执行中心,研究发展处,特聘学者 2016.03 至今:北京科技大学,材料科学与工程学院,讲师 2014.10 至 2016.03:日本 京都大学,能源理工学研究所,助理教授 2013.01 至 2014.09:日本 京都大学,能源理工学研究所,博士后 2010.09至2011.10: 国家公派, 日本 北海道大学,联合培养博士研究生; 2009.09至2012.06: 北京科技大学 材料科学与工程学院, 材料物理系,博士研究生;
研究领域
先进核能材料;材料的辐照损伤;超导材料;材料的低温行为;先进焊接与连接技术;
近期论文
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[1] Han W, Chen D, Ha Y, et al. Modifications of grain-boundary structure by friction stir welding in the joint of nano-structured oxide dispersion strengthened ferritic steel and reduced activation martensitic steel[J]. Scripta Materialia, 2015, 105: 2-5. [2] W. Han, A. Kimura, D. Chen, H. Serizawa. Parameter selection in dissimilar friction stir welding of ODS ferritic steel and RAFM steel F82H, Journal of Plasma and Fusion Research, 11 (2015) 65-68. [3] W. Han, A. Kimura, N. Tsuda, H. Serizawa, D. Chen, H. Je, H. Fujii, Y. Ha, Y. Morisada, H. Noto, Effects of mechanical force on grain structures of friction stir welded oxide dispersion strengthened ferritic steel, Journal of Nuclear Materials, 455 (2014) 46-50. [4] W. Han, H. Serizawa, A. Kimura, Effects of rotation speed on microstructure and hardness of friction stir welded ODS ferritic steel, Proceedings of the 1st international joint symposium on joining and welding, (2013) 81-85. [5] W. Han, S. Ukai, F. Wan, Y. Sato, B. Leng, H. Numata, N. Oono, S. Hayashi, Q. Tang, Y. Sugino, Hardness and micro-texture in friction stir welds of a nanostructured oxide dispersion strengthened ferritic steel, Materials Transactions, 53 (2012) 390-394. [6] W. Han, F. Wan, B. Leng, S. Ukai, Q.X. Tang, S. Hayashi, J. He, Y. Sugino, Grain characteristic and texture evolution in friction stir welds of nanostructured oxide dispersion strengthened ferritic steel, Science and Technology of Welding and Joining, 16 (2011) 690-696. [7] W. Han, F. Wan, G. Li, C. Dong, J. Tong, Effect of trailing heat sink on residual stresses and welding distortion in friction stir welding Al sheets, Science and Technology of Welding and Joining, 16 (2011) 453-458. [8] W. Han, G. Li, F. Wan, C. Dong, G. Luan, C. Dong, Research on FSW process with thermal sink apparatus, Electric Welding Machine, 10 (2009) 017-021. [9] Y. Zhu, F. Wan, J. Gao, W. Han, Y. Huang, S. Jiang, J. Qiao, F. Zhao, S. Yang, S. Ohnuki, N. Hashimoto, Mechanical property and irradiation damage of China Low Activation Martensitic (CLAM) steel, Sci. China Phys. Mech. Astron, 55 (2012) 2057-2061. [10] D. Chen, A. Kimura, W. Han, et al. Age-hardening susceptibility of high-Cr ODS ferritic steels and SUS430 ferritic steel[J]. Fusion Engineering and Design, 2015, 98: 1945-1949. [11] Z. Zhang, D. Chen, W. Han, et al. Irradiation hardening in pure tungsten before and after recrystallization[J]. Fusion Engineering and Design, 2015, 98: 2103-2107. [12] J. Zhang, W. Han, Y. Chang, F. Wan. Microstructure and mechanical properties in friction stir welded nanostructured oxide dispersion strengthened steel joint [J]. Hanjie Xuebao/Transactions of the China Welding Institution, 2015, 36, 10: 9-11. [13] Z. Zhang, W. Han, A. Kimura. Correlation of Microstructure Evolution and Hardening in Ion-irradiated Pure Tungsten, Journal of Plasma and Fusion Research, 11 (2015) 94-98. [14] D. Chen, A. Kimura, W. Han. Effect of Long-term Thermal Aging on Microstucture and Mechanical Property Changes of Fe-15Cr Ferritic Alloys, Journal of Plasma and Fusion Research, 11 (2015) 57-60. [15] D. Chen, A. Kimura, W. Han. Correlation of Fe/Cr phase decomposition process and age-hardening in Fe–15Cr ferritic alloys, Journal of Nuclear Materials, 455 (2014) 436-439.