[1] Han, Wentuo*, Yuchen Liu, Farong Wan, Pingping Liu, Xiaoou Yi, Qian Zhan, Daniel Morrall, and Somei Ohnuki. "Deformation behavior of austenitic stainless steel at deep cryogenic temperatures." Journal of Nuclear Materials 504 (2018): 29-32.
[2] Han, W.*, Wan, F., Yabuuchi, K., Serizawa, H., & Kimura, A. Joint inhomogeneity in dissimilar friction stir welded martensitic and nanostructured ferritic steels. Science and Technology of Welding and Joining, 23(8) (2018):659-665.
[3] W.T. Han, H.P. Liu, B.S. Li, Transmission electron microscopy and high-resolution electron microscopy studies of structural defects induced in Si single crystals implanted by helium ions at 600 °C, Applied Surface Science,Volume 455,2018,Pages 433-437.
[4] Han, Wentuo, and Bingsheng Li. "Microstructural defects in He-irradiated polycrystalline α-SiC at 1000° C." Journal of Nuclear Materials 504 (2018): 161-165.
[5] Han, Wentuo*, Pingping Liu, Xiaoou Yi, Qian Zhan, Farong Wan, Kiyohiro Yabuuchi, Hisashi Serizawa, and Akihiko Kimura. "Impact of friction stir welding on recrystallization of oxide dispersion strengthened ferritic steel." Journal of Materials Science & Technology 34, no. 1 (2018): 209-213.
[6] B. Yu, W.T. Han*, Z. Tong et.al, Application of Small Specimen Test Technique toEvaluate Creep Behavior of Austenitic Stainless Steel, Materials 2019 12 (16): 2541.
[7] Yi, Xiaoou*; Zhang, Lei; Han, Wentuo* et al. Defect characterization, mechanical and thermal property evaluation in CVD-W after low-dose neutron, International Journal of Refractory Metals and Hard Materials, 2019, 85: 105004.
[8] Han, W. *, Yabuuchi, K., Kasada, R., Kimura, A., Wakai, E., Tanigawa, H., ... & Wan, F. (2017). Application of small specimen test technique to evaluate fracture toughness of reduced activation ferritic/martensitic steel. Fusion Engineering and Design, 2017 125, 326-329.
[9] W. Han*, K. Yabuuchi, A. Kimura, S. Ukai, N. Oono, T. Kaito, T. Torimaru, S. Hayashi, Effect of Cr/Al contents on the 475ºC age-hardening in oxide dispersion strengthened ferritic steels, Nuclear Materials and Energy, 9 (2016) 610-615.
[10] W. Han*, D. Chen, A. Kimura, 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.
[11] 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.
[12] 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.
[13] 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.
[14] 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.
[15] 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.
