1. Experimental and modelling assessment of ductility in a precipitation hardening AlMgScZr alloy,H Chen, Z Chen*, G Ji, S Zhong*, H Wang, A Borbély, Y Ke, Y Brechét,International Journal of Plasticity, 2021,102971
2. The neutron shielding modeling and experimental characteristic in TiB2/Al composites,H Zhai, S Zhong*, J Li, Y Chen, Y Cui, Z Chen, G Sun, H Wang,Materials Today Communications, 2021,102194
3. Spark plasma sintering mechanisms of the Al-Zn-Mg-Cu alloys and TiB2/Al-Zn-Mg-Cu composites,Q. Yang, D.L. Cheng,F.G. Zhang,Q.W. Shi,Z. Chen*,M.L. Wang,S.Y. Zhong* Y. Wu,H.W. Wang,Materials Characterization,172, 2021, 110825
4. Strategy of Residual Stress Determination on Selective Laser Melted Al Alloy Using XRD,Yujiong Chen, Hua Sun, Zechen Li ,Yi Wu, Yakai Xiao, Zhe Chen ,Shengyi Zhong* ,Haowei Wang,Materials, 2020, 13, 451
5. Anisotropic behavior of TiB2 nanoparticles reinforced 2024Al composites rolling sheet, J.M. Lia, J. Liu, L. Wang, Z. Chen, Q.W. Shi, C.Y. Dan, Y. Wu, S.Y.Zhong*, H.W. Wang; Materials Characterization, 2020, 162, 110196.
6. Microstructure and mechanical response of TiB2/Al–Zn–Mg–Cu composites with more addition of Zn. Yang, Q., Shen, Y., Liu, J., Wang, L., Chen, Z., Wang, M.L., Zhong, S.Y*., Wu, Y., Wang, H.W., 2019b. Journal of Alloys and Compounds, 152584.
7. A new powder metallurgy routine to fabricate TiB2/Al–Zn–Mg–Cu nanocomposites based on composite powders with pre-embedded nanoparticles. Q. Yang, Y. Ma, Z. Chen*, G. Ji, M. L. Wang, S. Y. Zhong*, Y. Wu, V. Ji, H. W. Wang, Materialia 8, 100458 (2019)
8. Microstructure evolution of the rapidly solidified alloy powders and composite powders. Q. Yang, Y. T. Liu, J. Liu, L. Wang, Z. Chen*, M. L. Wang, S. Y. Zhong*, Y. Wu, H. W. Wang, Materials & Design 182, 108045 (2019)
9. Cube orientation bands observed in largely deformed Al-Sc alloys containing shearable precipitates,C.Y. Dan, Z. Chen?, G. Ji, S.Y. Zhong?, J. Li, X.R. Li, F. Brisset, G.A. Sun, H.W. Wang, V. Ji,Scripta Materialia 166 (2019) 139-143
10. Improved structural homogeneity and mechanical properties of nanoparticles reinforced Al composites after orthogonal thermomechanical processes. Liu, Jun, Zhe Chen, Fengguo Zhang, Gang Ji, Yu Ma, Mingliang Wang, Shengyi Zhong*, Jian Li, Hong Wang, and Haowei Wang. Journal of Alloys and Compounds (2018). 767:293-301.
11. Multi-scale study of microstructure evolution in hot extruded nano-sized TiB 2 particle reinforced aluminum composites, Z Chen, GA Sun, Y Wu, MH Mathon, A Borbely, D Chen, G Ji, ML Wang, SY Zhong*, HW Wang, Materials & Design, 116(2017) 577-590
12. Structural, elastic and thermodynamic properties of Mo3Si and Mo3Ge, S.Y. Zhong, Z.Chen*, M.L. Wang*, Dong Chen, Eur. Phys. J. B, 89(2016)6
13. Modeling of structural hardening of oxide dispersion strengthened (ODS) ferritic alloys, S.Y. Zhong, V. Klosek*, Y. de Carlan, M.H. Mathon, J. Mater. Sci, 51(2016)2540-2549
14. The effects of nanosized particles on microstructural evolution of an in-situ TiB2/6063Al composite produced by friction stir processing, Z. Chen, J. Li, A. Borbely, G. Ji , S.Y. Zhong*, Y. Wu, M.L. Wang, H.W. Wang, Mater. Design. 88 (2015) 999-1007
15. Effect of Cr content and heat-treatment on the High temperature strength of eutectic Al-Si alloys, Y. Yang, S.Y. Zhong*, Z. Chen, M. Wang, N. Ma, H. W. Wang, J. Alloy. Compd, 647 (2015) 63-69
16. The effect of Y/ti ratio on oxide precipitate evolution in ODS fe-14 wt. Pct. Cr alloys. S.Y. Zhong*, J. Ribis, N. Lochet, Y. de Carlan, V. Klosek, V. Ji, M.H. Mathon, Metall. Mater. Trans A, 46 (2015) 1413-1418
17. Influence of nano-particle coherency degree on the coarsening resistivity of the nano-oxide particles of Fe-14Cr-1W ODS alloys. S.Y. Zhong*, J. Ribis, N. Lochet, Y. de Carlan, V. Klosek, M.H. Mathon, J. Nucl. Mater. 455(2014) 618-623
18. The effect of Ti/Y ratio on the recrystallisation behaviour of Fe-14%Cr oxide dispersion-strengthened alloys, S.Y. Zhong*, J. Ribis, T. Baudin, N. Lochet, Y. de Carlan, V. Klosek, M.H. Mathon, J. Nucl. Mater. 452 (2014) 359-363
教材:
《物质结构导论(法语版)》,上海交通大学出版社,ISBN:978-7-313-23762-0,Jean-Aristide Cavailles, 钟圣怡,袁怡佳,(2020)
《电子电路基础(法语版)》,上海交通大学出版社,ISBN:978-7-313-23763-7,Jean-Aristide Cavailles, 钟圣怡,袁怡佳,施奇伟,(2020)