个人信息
个人简历
个人简介:
崔璨,男,工学博士,毕业于厦门大学。玛丽居里学者(Marie Sklodowska-Curie Fellow),硕士生导师。 主要从事机械力学和航空材料的相关研究工作,研究领域涉及结构可靠性及其失效分析,疲劳与断裂,计算力学,计算材料学等。主授课程:《机械原理》和《机械设计》。 主持重庆市教委项目(省部级)1项,及其他科研合同项目2项。获批2025年欧盟“玛丽·居里学者”人才计划资助。参研国家自然科学基金(面上项目)1项,参研其他省部级及科研合同项目4项。近年在《International Journal of Mechanical Sciences》-1区top、《Engineering Fracture Mechanics》-2区top、《Materials and Design》-1区top等国内外权威期刊上发表学术论文十余篇。
项目情况:
[1] Fatigue failure mechanism of marine concrete structures using multi-scale numerical modelling, Horizon Europe MSCA-PF,2025年,主持。
[2] 考虑微观结构影响的航发涡轮叶片力学性能演化研究,重庆市教委项目,2022年,主持。
研究方向:
结构可靠性及其失效分析,疲劳/断裂/寿命评估,计算力学
论文情况:
[1] Z.J. Han, P.K. Gua, Q.L. Huang, Z.Y. Chen, B.Y. Ren, Y.H. Li, C. Cui*, W.W. Xu*, X.J. Liu. Interpretable machine learning for intrinsic mechanical properties of γ′ phase in Cobalt-based superalloys. Metals Advances, 2026, 43: 31-43.
[2] F.F. Xia*, J.L. Xiangge, S.J. Li, C. Cui*. Twin nucleation threshold and ideal shear strength in Ni-based superalloys: atomistic insights from layer-dependent and alloying effects. Computational Condensed Matter, 2026, 46: e012012.
[3] T.X Lin, C.Y. Li, H.K. Zhou, R. Chen, Y. Li, C. Cui, L.Z. Zhang, M.Y. Li, Z.Z. Wang, W.W. Xu*. A review on cracking in laser additive manufacturing of Nickel-based superalloys: types, formation mechanisms, and suppression strategies. Rare Metals, 2026, 45(4): e70180.
[4] F.F. Xia*, S.J. Li, J.L. Xiangge, C. Cui*. Theoretical investigation of interstitial atoms on generalized stacking fault energy and critical resolved shear stress of Ni. Journal of Physics and Chemistry of Solids, 2025, 202: 112681.
[5] W. Wang, C. Cui, F.F. Xia, W.W. Xu, T.Q Gang*, L.J. Chen*. A first principles investigation into the mechanical properties and the strengthening mechanism of the graphene/aluminum interface structure. Scientific Reports, 2025,15(1): 38571.
[6] W. Wang, C. Cui, F.F. Xia, W.W. Xu, T.Q Gang*, L.J. Chen*. Atomistic Doping Effects on the Ideal Strength of Graphene/Aluminum Interfaces. Materials, 2025, 18(20): 4753.
[7] S.B. Xia, B.Y. Ren, Z.J. Han,Y.H. Li, Z.X. Gao, Y.H. Guo, C. Cui, J.B. Zhang*, W.W. Xu*. Enhancing mechanical properties of γ/γ′ Co-Ni-Al-Nb-based superalloys through tailored adjustments. Journal of Alloys and Compounds, 2025, 1038: 182976.
[8] W. Wang, W. Xu, C. Cui, F.F. Xia, G.T. Qiang*, L.J. Chen*. Influence of Gas Molecule Adsorption on the Mechanical Properties of the Graphene/Aluminum Interface. RSC Advances, 2025, 15(59): 51198-51208.
[9] C. Cui, X.G. Gong, L.J. Chen, W.W. Xu*, L.J. Chen*. Atomic-scale investigations on dislocation-precipitate interactions influenced by voids in Ni-based superalloys. International Journal of Mechanical Sciences, 2022,216: 106945.
[10] C. Cui, X.G. Gong, L.J. Chen, W.W. Xu*, L.J. Chen*. Atomic-scale investigations on dislocation-precipitate interactions influenced by voids in Ni-based superalloys. International Journal of Mechanical Sciences, 2022, 216: 106945.
[11] C. Cui, X.G. Gong, F.F. Xia, W.W. Xu*, L.J. Chen*. Misorientation effect of twist grain boundaries on crack nucleation from molecular dynamics. Engineering Fracture Mechanics, 2021, 243: 107509.
[12] C. Cui, Q. Yu, W. Wang, W.W. Xu*, L.J. Chen*. Atomic-scale investigations on dislocation-precipitate interactions influenced by voids in Ni-based superalloys. Vaccum, 2021, 184: 109874.
[13] Q. Yu, W.W. Xu*, C. Cui, X.G. Gong, W. Li, L.J. Chen, X.Q. Li*, L. Vitos. Unveiling segregation-induced evolution in phase constitution of Cu-containing high-entropy alloys. Journal of Alloys and Compounds, 2020, 843: 156109.
[14] X.G. Gong, W.W. Xu*, C. Cui, Q. Yu, W. Wang, T.Q. Gang*, L.J. Chen*. Exploring alloying effect on phase stability and mechanical properties of γ″-Ni3Nb precipitates with first-principles calculations. Materials and Design, 2020, 196: 109174.
[15] X.G. Gong, C. Cui, Q. Yu, W. Wang, W.W. Xu, L.J. Chen. First-principles study of phase stability and temperature-dependent mechanical properties of (Cr, M)23C6 (M = Fe, Mo) phases. Journal of Alloys and Compounds, 2020, 824: 153948.
荣誉及奖励:
[1] 玛丽居里学者
指导研究生情况(近五年):
现指导2名硕三研究生,3名硕二研究生。
