学习工作经历
2020.12-至今 公司
2017.11-2020.10 俄亥俄州立大学 博士后
2012.09-2017.10 南京航空航天大学 硕博连读/博士
2008.09-2012.06 南京航空航天大学 本科
社会兼职
主讲课程
主要研究方向
轻合金凝固过程多尺度建模与仿真
科研项目
论文及专著
[1] C. Gu, Y. Lu, Alan A. Luo. Three-dimensional Visualization and Quantification of Microporosity in Aluminum Castings by X-ray Micro-Computed Tomography. Journal of Materials Science & Technology, (2020).
[2] C. Gu, C.D. Ridgeway, E. Cinkilic, et al. Predicting gas and shrinkage porosity in solidification microstructure: a coupled three-dimensional cellular automaton model. Journal of Materials Science & Technology, (2020).
[3] C. Gu, C.D. Ridgeway, M. Moodispaw, et al. A cellular automaton model for dendrite growth during solidification of multi-component alloys, Journal of Materials Processing Technology, (2020).
[4] C. Gu, Y. Lu , C.D. Ridgeway, et al. Three-dimensional cellular automaton simulation of coupled hydrogen porosity and microstructure during solidification of ternary alloys, Scientific Reports, (2019) 9: 13099.
[5] C. Gu, Y. Lu, E. Cinkilic, et al. Predicting grain structure in high pressure die casting of aluminum alloys: A coupled cellular automaton and process model, Comput. Mater. Sci. 161 (2019) 64–75.
[6] C. Gu, C.D. Ridgeway, A.A. Luo. Examination of Dendritic Growth During Solidification of Ternary Alloys via a Novel Quantitative 3D Cellular Automaton Model, Metall. Mater. Trans. B. 50 (2019) 123–135.
[7] C.D. Ridgeway, C. Gu, A. Luo. Predicting primary dendrite arm spacing in Al–Si–Mg alloys: effect of Mg alloying, J. Mater. Sci. 54 (2019) 9907–9920.
[8] C. Gu, Y. Wei, F. Yu, et al. Cellular Automaton Study of Hydrogen Porosity Evolution Coupled with Dendrite Growth During Solidification in the Molten Pool of Al-Cu Alloys, Metall. Mater. Trans. A. 48 (2017) 4314–4323.
[9] X. Zhan, C. Gu, Y. Liu, et al. Effect of Solute Diffusion on Dendrite Growth in the Molten Pool of Al-Cu Alloy, Metall. Mater. Trans. B Process Metall. Mater. Process. Sci. 48 (2017) 2685–2694.
[10] C. Gu, Y. Wei, X. Zhan, et al. A three-dimensional cellular automaton model of dendrite growth with stochastic orientation during the solidification in the molten pool of binary alloy, Sci. Technol. Weld. Join. 22 (2017) 47–58.
[11] C. Gu, Y. Wei, X. Zhan, et al. Investigation of welding parameters on microstructure and mechanical properties of laser beam-welded joint of 2060 Al–Cu–Li alloy, Int. J. Adv. Manuf. Technol. 91 (2017) 771–780.
[12] C. Gu, Y. Wei, R. Liu, et al. Effect of Temperature and Fluid Flow on Dendrite Growth During Solidification of Al-3 Wt Pct Cu Alloy by the Two-Dimensional Cellular Automaton Method, Metall. Mater. Trans. B Process Metall. Mater. Process. Sci. 48 (2017) 3388–3400.
[13] X. Zhan, J. Chen, C. Gu, et al. Study on effects of pre-treatment and surface roughness on tensile-shear strength of 2060 Al-Li alloy adhesive joints, J Adhesion, 2017, 93:8, 613-625.
[14] X. Zhan, C. Gu, H. Wu, H. Liu, J. Chen, J. Chen and Y. Wei: Experimental and numerical analysis on the strength of 2060 Al–Li alloy adhesively bonded T joints, Int. J. Adhes. Adhes., 2016, 65, 79-87.
专利
表彰及奖励
科研团队
