[1] G.W. Wang, J.J. Liang, Y.Z. Zhou*, T. Jin, X.F. Sun, Z.Q. Hu, Prediction of Dendrite Orientation and Stray Grain Distribution in Laser Surface-melted Single Crystal Superalloy, J. Mater. Sci. Technol., 33: 499-506, 2017.

　　[2] L. Cao, L. Yao, Y.Z. Zhou*, T. Jin, X.F. Sun, Formation of the Surface Eutectic of a Ni-based Single Crystal Superalloy, J. Mater. Sci. Technol., 33: 347-351, 2017.

　　[3] J.J. Liang*, Q.H. Lin, X. Zhang, T. Jin, Y.Z. Zhou*, X.F. Sun, B.G. Choi, I.S. Kim, J.H. Do, C.Y. Jo, Effects of Alumina on Cristobalite Crystallization and Properties of Silica-Based Ceramic Cores, J. Mater. Sci. Technol., 33: 204-209, 2017

　　[4] G.X. Lu, J.D. Liu*, H.C. Qiao, C.Y. Cui, Y.Z. Zhou*, T. Jin, J.B. Zhao, X.F. Sun, Z.Q. Hu, The Local Microscale Reverse Deformation of Metallic Material under Laser Shock, Adv. Eng. Mater., 19: 1-6, 2017.

　　[5] S. Gao, Z.Q. Liu*, J.P. Cui, Y.Z. Zhou*, T. Jin, In situ transformation from P phase to phase in rhenium-containing single-crystal superalloy during thermal exposure, Philos. Mag. Lett., 97: 188-196, 2017.

　　[6] G.W. Wang, J.J. Liang, Y.Z. Zhou*, T. Jin, X.F. Sun, Z.Q. Hu, Effects of Substrate Crystallographic Orientations on Microstructure in Laser Surface-Melted Single Crystal, Acta Metall. Sinica-English Lett., 29: 763-773, 2016.

　　[7] G.X. Lu, J.D. Liu*, H.C. Qiao, G.L. Zhang, C.Y. Cui, Y.Z. Zhou*, T. Jin, J.B. Zhao, X.F. Sun, Z.Q. Hu, Microscopic surface topography of a wrought superalloy processed by laser shock peening, Vaccum, 130: 25-33, 2016.

　　[8] S. Gao, Y.Z. Zhou*, C.F. Li, Z.Q. Liu*, Tao Jin, Effects of platinum group metals addition on the precipitation of topologically close-packed phase in Ni-base single crystal superalloys, J. Alloys Comp., 671: 458-464, 2016.

　　[9] S. Gao, Z.Q. Liu*, C.F. Li, Y.Z. Zhou*, T. Jin, In situ TEM investigation on the precipitation behavior of mu phase in Ni-base single crystal superalloys, Acta Mater.,110: 268-275, 2016.

　　[10] X.Y. Chen, Y.Z. Zhou*, T. Jin, X.F. Sun, Effect of C and Hf contents on the interface reactions and wettability between a Ni3Al-based superalloy and ceramic mould material, J. Mater. Sci. Technol., 32: 177-181, 2016.

　　[11] G.X. Lu, J.D. Liu*, Y.Z. Zhou*, T. Jin, X.F. Sun, Z.Q. Hu, Differences in the micromechanical properties of dendrites and interdendritic regions in superalloys, Philos. Mag. Lett., 96 (2016) 461-468.

　　[12] X.Y. Chen, Z. Jin, X.F. Bai, Y.Z. Zhou*, T. Jin, X.F. Sun, Effect of C on the interfacial reaction and wettability between a Ni-based superalloy and ceramic mould, Acta Metall. Sinica, 51: 853-858, 2015.

　　[13] S. Gao, Y.Z. Zhou*, C.F. Li, J.P. Cui, Z.Q. Liu*, T. Jin, In situ investigation on the precipitation of topologically close-packed phase in Ni-base single crystal superalloy, J. Alloys Comp., 610: 589-593, 2014.

　　[14] X.Y. Chen, Y.Z. Zhou*, C.W. Zhang, T. Jin, X.F. Sun, Effect of Hf on the interfacial reaction between a nickel base superalloy and a ceramic material, Acta Metall. Sinica, 50: 1019-1024, 2014.

　　[15] H. Xu, P. Li*, Y.Z. Zhou*, J.G. Li, T. Jin, X.F. Sun, Z.F. Zhang, Investigation on In Situ Tensile Behavior of Superalloy Bicrystals with Different GB Misorientations, Metall. Mater. Trans., 45A: 3876-3881, 2014.

　　[16] X.L. Zhang, Y.Z. Zhou*, Y.Y. Han, T. Jin, X.F. Sun, Dendritic Growth Pattern and Dendritic Network Distortion in the Platform of a Ni-based Superalloy, J. Mater. Sci. Technol., 30: 223-228, 2014.

　　[17] L. Cao, Y.Z. Zhou*, T. Jin, X.F. Sun, Effect of grain boundary angle on stress rupture properties of a Ni-based bicrystal superalloy, Acta Metall. Sinica, 50: 11-18, 2014.

　　[18] H.W. Lin, Y.Z. Zhou*, X. Zhang, T. Jin, X.F. Sun, Solidification behavior of a Pt–containing Ni–based single crystal superalloy, Acta Metall. Sinica, 49: 1567-1572, 2013.

　　[19] X.L. Zhang, Y.Z. Zhou*, T. Jin, X.F. Sun, L. Liu, Effect of solidification rate on grain structure evolution during directional solidification of a Ni-based superalloy, J. Mater. Sci. Technol., 29: 879-883, 2013.

　　[20] X.L. Zhang, Y.Z. Zhou*, T. Jin, X.F. Sun, Study on the tendency of stray grain formation of Ni–based single crystal superalloys, Acta Metall. Sinica, 48: 1229-1236, 2012.

　　[21] Y.Z. Zhou, X.F. Sun*, Effect of solidification rate on competitive grain growth in directional solidification of a nickel-base superalloy, Sci. China (Technol. Sci.), 55: 1327-1334, 2012.

　　[22] Y.Z. Zhou*, Formation of stray grains during directional solidification of a nickel-based superalloy, Scripta Mater., 65: 281-284, 2011.

　　[23] Y.Z. Zhou*, T. Jin, X.F. Sun, Structure evolution in directionally solidified bicrystals of nickel base superalloys, Acta Metall. Sinica, 46: 1327-1334, 2010.

　　[24] Y.Z. Zhou, A. Volek and N.R. Green*, Mechanism of competitive grain growth in directional solidification of a nickel-base superalloy, Acta Mater., 56 (11): 2631-2637, 2008.

　　[25] Y.Z. Zhou* and A. Volek, Effect of carbon additions on hot tearing of a second generation nickel-base superalloy, Mater. Sci. Eng., 479A (1-2): 324-332, 2008.

　　[26] Y.Z. Zhou and A. Volek*, Influence of solidification conditions on grain boundary cohesion in mushy zone during directional solidification of a nickel-base superalloy, Mater. Sci. Technol., 23: 297-302, 2007.

　　[27] Y.Z. Zhou and A. Volek*, Effect of dendrite arm spacing on castability of a directionally solidified nickel alloy, Scripta Mater., 56(6): 537-540, 2007.

　　[28] Y.Z. Zhou, A. Volek and R. F. Singer*, Effect of grain boundary characteristics on hot tearing in directional solidification of superalloys, J. Mater. Res., 21(9): 2361-2370, 2006.

　　[29] Y.Z. Zhou and A. Volek*, Effect of grain boundary fraction on castability of a directionally solidified nickel alloy, Scripta Mater., 54(12): 2169-2174, 2006.

　　[30] Y.Z. Zhou*, A. Volek and R. F. Singer, Influence of solidification conditions on castability of nickel-base superalloy IN792, Metall. Mater. Trans., 36A(3): 651-656, 2005.