[1] S.Y. Ma, J.X. Zhang*, P. Li, Y.J. Zhang, H.X. Jin, W.Y. Zhang, X.Q. Li, S.C. Mao, J.D. Liu, X.G. Wang, Y.Z. Zhou, X.F. Sun, W. Ni. Intergrowth of P phase with Laves phase C36 in the high Mo-containing nickel-base single crystal superalloy [J]. Materials Research Express. 2019, 6: 046528.
[2] S.Y. Ma, X.Q. Li, J.X. Zhang*, J.D. Liu, P. Li, Y.J. Zhang, H. X. Jin, W. Y. Zhang, Y.Z. Zhou, X.F. Sun, Q. Zhang, Y.H. Chen, S.C. Mao. Atomic Arrangement and Formation of Planar Defects in the μ Phase of Ni-base Single Crystal Superalloys [J]. Journal of Alloys and Compounds. 2018, 766: 775-783.
[3] S.Y. Ma, J.X. Zhang*, P. Li, Y.J. Zhang, H.X. Jin, W.Y. Zhang, X.Q. Li, S.C. Mao, J.D. Liu, X.G. Wang, Y.Z. Zhou, X.F. Sun, W. Ni. Growth twins of R phase in the high Mo-containing nickel-base single crystal superalloy [J]. Materials Research Express. 2018, 5: 126517.
[4] S.Y. Ma, X.Z. Lv, J.X. Zhang*, Y.J. Zhang, P. Li, H.X. Jin, W.Y. Zhang, X. Li, S.C. Mao. Core structure and strengthening mechanism of the misfit dislocation in nickel-based superalloys during high-temperature and low-stress creep [J]. Journal of Alloys and Compounds. 2018, 743: 372-376.
[5] S.Y. Ma, J.X. Zhang*, P. Li, Y.J. Zhang, H.X. Jin, W.Y. Zhang, Elastic deformation behavior and microstructure evolution of single crystal nickel nanowire in tensile test along [001] orientation [J]. Materialwissenschaft und Werkstofftechnik. 2018, 49: 1-12.
[6] S.Y. Ma, N.N. Ren, J.X. Zhang*. Effects of substitution of X (X=Re, Cr and Zr) on the properties of Co7Mo6 μ phase: A first-principles study [J]. Materialwissenschaft und Werkstofftechnik. 2017, 48:570-576.
[7] S.Y. Ma, J.X. Zhang*, X.Q Li, S.C Mao. Characterization and formation of σ/γ interface in Ni-based single crystal superalloys [J]. Materials Research Express. 2017, 4(11): 116512.
[8] S.Y. Ma, J.X. Zhang*, Y.J. Zhang, J.Y. Qin. The diffusion behavior of Cr and Re in nickel-based superalloys at an atomic level [J]. Computational and Theoretical Chemistry. 2016, 1097:33-39.
[9] S.Y. Ma, J.X. Zhang*. Alloying effects of refractory elements in the dislocation of Ni-based single crystal superalloys [J]. Progress in Natural Science: Materials International. 2016, 26:636-642.
[10] S.Y. Ma, N.N. Ren, J.X. Zhang*. Observation of morphology and stress distribution around dislocation in Ni3Al on the atomic scale [J]. Solid State Communications. 2015, 211:4-9.
[11] S.Y. Ma, J.X. Zhang*. The structure and electronic properties of dislocations studied by first-principles and molecular dynamics [J]. Molecular Simulation. 2015, 42(2): 102-109.
[12] S.Y. Ma, J.X. Zhang*. Site preference and alloying effect of Re atoms in the edge dislocation cores in Ni3Al [J]. Philosophical Magazine Letters. 2015, 95(5): 253-259.
[13] H.B. Long, Y.N. Liu, S.C. Mao*, H. Wei, J.X. Zhang, S.Y. Ma, Q.S. Deng, Y.H. Chen, Z. Zhang, X.D. Han. Minimum interface misfit criterion for the precipitation morphologies of TCP phases in a Ni-based single crystal superalloy [J]. Intermetallics. 2018, 94:55-64.
[14] S.S. Xiang, S.C. Mao*, Z.J. Shen, H.B. Long, H. Wei*, S.Y. Ma, J.X. Zhang, Y.H. Chen, J.F. Zhang, B. Zhang, Y.N. Liu*. Site preference of metallic elements in M 23 C 6 carbide in a Ni-based single crystal superalloy [J]. Materials & Design. 2017, 129:9-14.
[15] Y.J. Zhang, J.X. Zhang*, S.Y. Ma, P. Li, H.X. Jin. Site occupancy behaviours of ternary elements (Zr, Mo, Cr) in the Laves phase of C15 NbCo2: a first-principles study [J]. Philosophical Magazine. 2017, 97(13): 1012-1023.