教师名录

籍贯山东

2009年于南京航空航天大学获得工学学士学位

2016年于上海交通大学机械与动力工程学院获工学博士学位

2016年至2017年在美国密歇根大学进行博士后研究

2017年至2021年在美国俄亥俄州立大学进行博士后研究

2021年加入上海交通大学，长聘教轨副教授

共发表SCI论文30余篇，其中包括International Journal of Plasticity 4篇，Journal of the Mechanics and Physics of Solids 1篇。

博士、硕士招生：

课题组每年计划招收博士和硕士生各一名，研究方向为轻量化材料如碳纤维复合材料、镁铝合金的力学仿真与多尺度建模等。

欢迎机械、材料、力学相关学生来信咨询。

主要方向为先进轻量化材料成形的多尺度研究。面向航空航天、深空探测及交通运输等国家重大工程的建设与发展中关键轻量化材料的成形制造，如碳纤维复合材料、镁铝合金等，通过宏微观表征测试与数值建模仿真相结合的方法，揭示材料的复杂变形机理，建立准确的多尺寸性能预测方法，指导先进轻量化材料的设计与应用。

金属材料的晶体塑性建模

材料变形行为力学建模与多尺度模拟

数据驱动的材料建模

复合材料性能、损伤的建模与分析

2024-2027 南通市项目--百兆瓦压缩空气储能新型玻纤复合套管研究，负责人

2023-2026 国家科技部重点研发--喷射成形超高强铝合金热变形工艺与组织调控技术，课题负责人

2022-2024 国家自然科学基金—数据驱动的镁合金动态再结晶多尺度建模研究，负责人

2023-2023企业项目—考虑多因素复合材料性能分析方法，负责人

2021-2022 国家重点实验室课题—6xxx系汽车铝板罗平线缺陷形成机理与预测方法研究，负责人

2021-2022企业项目—复合材料疲劳、蠕变性能的测试与分析，负责人

2018-2021美国能源部(DOE)—基于计算材料的晶体塑性-应变梯度本构模型研究，主要完成人

2018-2021 国家自然科学基金—镁合金板材伪弹性变形机制与细观建模，主要完成人

2016-2018 美国能源部(DOE)—面向汽车轻量化设计的碳纤维复合材料的多尺度集成计算模型，主要完成人

2012-2016 国家自然科学基金—基于多晶体弹塑性本构模型的镁合金板材成形极限研究，主要完成人

2012-2013 GM R&D 通用汽车—汽车用镁合金板材成形性能改进研究，主要完成人

2010-2012 上海市科委计划资助—高强铝合金板材温热冲压成形宏微观研究，主要完成人

43. Zhang, Y., Li, D., Zhou, G., Tao, L., Liu, Z., Fan, G., & Wu, H. (2024). Unusual hardening mediated by {10-12} twins of strongly textured titanium at cryogenic temperature. International Journal of Plasticity, 104206.

42. Liu, R., Zhang, Z., Zhou, G., Jia, Z., Li, D., & Wu, P. (2024). A polycrystal plasticity-cellular automaton integrated modeling method for continuous dynamic recrystallization and its application to AA2196 alloy. International Journal of Plasticity, 182, 104127.

41. He, J., Zheng, F., Ma, W., Zhou, G.*, Fan, G., Chen, Z., ... & Li, D. (2024). Statistical modeling of 3D fiber geometry in pultruded GFRP composite: A multi-scale approach. Composites Science and Technology, 256, 110734.

40. Hu, Y., Zhou, G.*, Lee, M. G., Wu, P., & Li, D. (2024). A temporal graph neural network for cross-scale modelling of polycrystals considering microstructure interaction. International Journal of Plasticity, 179, 104017.

39. Zhou, G., Hu, Y., Cao, Z., Lee, M. G., & Li, D. (2024). A physics-constrained neural network for crystal plasticity modelling of FCC materials. Scripta Materialia, 241, 115861.

38. Zhang, Z., Liu, R., Li, D., Peng, Y., Zhou, G., Jia, Z., & Ma, W. (2024). Investigation on deformation behaviors and dynamic recrystallization mechanism of spray formed Al–Zn–Mg–Cu alloy under hot compression. Journal of Materials Research and Technology, 28, 4401-4416.

37. Hu, Y., Zhou, G.*, Liu, R., Yuan, X., Cao, L., Yang, B., ... & Wu, P. (2023). On the correlation between roping, texture, and morphology of aluminium alloy sheets. Journal of Materials Research and Technology, 26, 571-586.

36. Hu, Y.,Zhou, G.*, Yuan, X., Li, D., Cao, L., Zhang, W., & Wu, P. (2022). An artificial neural network-based model for roping prediction in aluminum alloy sheet.Acta Materialia, 118605. (SCI 1区，Top期刊，IF=9.2)

35. Yang, H.,Zhou, G*., Wang, H., Wu, P., Lee, M. G., & Li, D. (2022). Experimental and Numerical Study on Strain Path and Crystal Orientation Dependences of Phase Transformation Behaviors of QP1180 Steel.International Journal of Plasticity, 103499.(SCI 1区，Top期刊，IF=8.5)

34. LIU, R. X., Kai, L. I.,ZHOU, G. W.*,TANG, W. Q., Yao, S. H. E. N., Ding, T. A. N. G., & LI, D. Y. (2022). Simulation of strain induced abnormal grain growth in aluminum alloy by coupling crystal plasticity and phase field methods. Transactions of Nonferrous Metals Society of China, 32(12), 3873-3886.(SCI 2区，IF=2.6)

33. Q Sun,G Zhou*, H Tang*, Z Chen, J Fenner, Z Meng, M Jain, X Su. A combined experimental and computational analysis of failure mechanisms in open-hole cross-ply laminates under flexural loading.Composites Part B: Engineering, 2021, 108803.(SCI 1区，Top期刊，IF=7.6)

32.G Zhou, R Liu, D Li, Y Peng, P Wu. Analysis of strain rate sensitivities of different deformation mechanisms in AZ31B magnesium alloy sheet at various temperatures.JOM,2021,73(5): 1419-1427.(SCI).

31.G Zhou*, Q Sun*, Z Meng, D Li, Y Peng, D Zeng, X Su. Experimental investigation on the effects of fabric architectures on mechanical and damage behaviors of carbon/epoxy woven composites.Composite Structures, 2021, 257:113366.(SCI 1区，Top期刊，IF=5.1)

30.G Zhou*, H Tang, Q Sun*, D Li, Y Peng, D Zeng, X Su. Analysis of the crushing behaviors of woven carbon fiber reinforced plastic hat section component under dynamic bending and axial crushing loading.Thin-Walled Structures, 2021, 161:107426.

29. Q Sun#,G Zhou#, H Tang*, Z Meng*, M Jain, X Su, W Han*. In-situ effect in cross-ply laminates under various loading conditions analyzed with hybrid macro/micro-scale computational models.Composite Structures, 2021, 261:113592.(SCI 1区，Top期刊，IF=5.1)

28. Q Sun*,G Zhou*, Z Meng*, M Jain, X Su. An integrated computational materials engineering framework to analyze the failure behaviors of carbon fiber reinforced polymer composites for lightweight vehicle applications.Composites Science and Technology. 2021, 202:108560.(SCI 1区，Top期刊，IF=7.0)

27.G Zhou*, Q Sun, D Li, Z Meng, Y Peng, Z Chen, D Zeng, X Su. Meso-scale modeling and damage analysis of carbon/epoxy woven fabric composite under in-plane tension and compression loadings.International Journal of Mechanical Sciences, 2020, 190:105980.(SCI 2区，IF=4.6)

26. Z Li,G Zhou, D Li*, H Wang, W Tang, Y Peng, H S Zurob, P Wu.Crystal plasticity based modeling of grain boundary sliding in magnesium alloy AZ31B sheet.Transactions of Nonferrous Metals Society of China,2021, 31(1):138-155.(SCI)

25.G Zhou, W Jeong, E R Homer, D T Fullwood, M G Lee, J H Kim, H Lim, H Zbib, R H Wagoner*. A predictive strain-gradient model with no undetermined constants or length scales.Journal of the Mechanics and Physics of Solids, 145:104178.(SCI 1区，Top期刊，IF=5.0)

24. Z Li,G Zhou, D Li*, M K Jain, Y Peng*, P Wu. Forming limits of magnesium alloy AZ31B sheet at elevated temperatures.International Journal of Plasticity, 2020, 135:102822.(SCI 1区，Top期刊，IF=6.5)

23. H Tang#, Z Chen#*, H Xu*, Z Liu, Q Sun,G Zhou, W Yan, W Han*, X Su. Computational micromechanics model based failure criteria for chopped carbon fiber sheet molding compound composites.Composites Science and Technology, 2020, 108400.(SCI 1区，Top期刊，IF=7.0)

22.G Zhou#*, Q Sun#, D Li, Z Meng*, Y Peng, D Zeng, X Su. Effects of fabric architectures on mechanical and damage behaviors in carbon/epoxy woven composites under multiaxial stress states.Polymer Testing, 2020, 90:106657.(SCI 2区，Top期刊，IF=3.2)

21.G Zhou#, Q Sun#, J Fenner, D Li*, D Zeng, X Su, Y Peng. Crushing behaviors of unidirectional carbon fiber reinforced plastic composites under dynamic bending and axial crushing loading.International Journal of Impact Engineering, 2020, 140:103539.(SCI 1区，Top期刊，IF=3.6)

20. W Tang,G Zhou, Y Shao, D Li*, Y Peng, H Wang. On the role of yttrium in microstructure evolution and texture modification during magnesium alloy extrusion.Materials Characterization, 2020, 162:110189.(SCI 1区，Top期刊，IF=3.5)

19. L T Hansen, D T Fullwood, E R Homer, R H Wagoner, H Lim, J D Carroll,G Zhou, H J Bong. An investigation of geometrically necessary dislocations and back stress in large grained tantalum via EBSD and CPFEM.Materials Science and Engineering: A, 2020,772:138704.(SCI 1区，Top期刊，IF=4.6)

18. J Gao, M Shakoor, G Domel, M Merzkirch,G Zhou, D Zeng, X Su, W K Liu*. Predictive multiscale modeling for unidirectional carbon fiber reinforced polymers.Composites Science and Technology. 2020, 186:107922.(SCI 1区，Top期刊，IF=7.0)

17. H Tang#, Z Chen#,G Zhou, X Sun, Y Li, L Huang, H Guo*, H Kang, D Zeng, C E Pinto, X Su. Effect of fiber orientation distribution on constant fatigue life diagram of chopped carbon fiber chip-reinforced Sheet Molding Compound (SMC) composite.International Journal of Fatigue. 2019, 125: 394-405.(SCI 1区，Top期刊，IF=4.3)

16. H Tang#,G Zhou#, Z Chen#, L Huang, K Avery, Y Li, H Liu, H Guo*, H Kang, D Zeng, C E Pinto, X Su. Fatigue behavior analysis and multi-scale modelling of chopped carbon fiber chip-reinforced composites under tension-tension loading condition.Composite Structures, 2019, 215:85-97.(SCI 1区，Top期刊，IF=5.1)

15. T Tang#,G Zhou#, Z Li, D Li*, L Peng, Y Peng*, P Wu, H Wang, M G Lee. A polycrystal plasticity based thermo-mechanical-dynamic recrystallization coupled modeling method and its application to light weight alloys.International Journal of Plasticity, 2019, 116:159-191.(SCI 1区，Top期刊，IF=6.5)

14. Q Sun#,G Zhou#, H Guo*, Z Meng, Z Chen, H Liu, H Kang, X Su. Failure mechanisms of cross-ply carbon fiber reinforced polymer laminates under longitudinal compression with experimental and computational analyses.Composites Part B: Engineering, 2019, 167:147-160.(SCI 1区，Top期刊，IF=7.6)

13. Q Sun#,G Zhou#, Z Meng#, H Guo*, Z Chen, H Liu, H Kang, S Keten, X Su. Failure criteria of unidirectional carbon fiber reinforced polymer composites informed by a computational micromechanics model.Composites Science and Technology. 2019, 172:81-95.(SCI 1区，Top期刊，IF=7.0)

12. Z Chen#, H Tang#, Y Shao*, Qi Sun,G Zhou, Y Li, H Xu*, D Zeng, X Su. Failure of chopped carbon fiber Sheet Molding Compound (SMC) composites under uniaxial tensile loading: Computational prediction and experimental analysis.Composites Part A: Applied Science and Manufacturing, 2019, 118:117-130.(SCI 1区，Top期刊，IF=6.4)

11. H Tang#, Z Chen#,G Zhou#, Y Li, K Avery, H Guo, H Kang, D Zeng, X Su. Correlation between failure and local material property in chopped carbon fiber chip‐reinforced sheet molding compound composites under tensile load.Polymer Composites, 2019,40(S2):E962-E974.

10. Q Sun, H Guo*,G Zhou, Z Meng, Z Chen, H Kang, S Keten*, X Su. Experimental and computational analysis of failure mechanisms in unidirectional carbon fiber reinforced polymer laminates under longitudinal compression loading.Composite Structures, 2018, 203:335-348.(SCI 1区，Top期刊，IF=5.1)

9. Q Sun, Z Meng,G Zhou, S Lin, H Kang, S Keten*, H Guo*, X Su. Multi-scale computational analysis of unidirectional carbon fiber reinforced polymer composites under various loading conditions.Composite Structures, 2018, 196:30-43.(SCI 1区，Top期刊，IF=5.1)

8.G Zhou#, Z Li#, D Li*, Y Peng, H Wang, P Wu. Misorientation development in continuous dynamic recrystallization of AZ31B alloy sheet and polycrystal plasticity simulation.Materials Science and Engineering: A, 2018,730:438-456.(SCI 1区，Top期刊，IF=4.6)

7. Z Chen, Y Shao, Q Sun,G Zhou, H Xu*, D Zeng, X Su. A Comparative Study of Two ASTM Shear Test Standards for Chopped Carbon Fiber SMC.SAE International Journal of Materials and Manufacturing, 2018,11:277-284.(EI)

6.G Zhou*, Q Sun, Z Chen, D Zeng, X Su. Experiment and simulation study on unidirectional carbon fiber composite component under dynamic three-point bending loading.SAE International Journal of Materials and Manufacturing, 2018,11:499-504.(EI)

5.G Zhou, Z Li, D Li*, Y Peng, H S Zurob, P Wu. A polycrystal plasticity based discontinuous dynamic recrystallization simulation method and its application to copper.International Journal of Plasticity,2017, 91:48-76. (SCI 1区，Top期刊，IF=6.5)

4.G Zhou, M K Jain, P Wu, Y Shao, D Li*, Y Peng. Experiment and crystal plasticity analysis on plastic deformation of AZ31B Mg alloy sheet under intermediate temperatures: How deformation mechanisms evolve.International Journal of Plasticity, 2016, 79:19-47.(SCI 1区，Top期刊，IF=6.5)

3. Y Shao, T Tao, D Li*,G Zhou, S Zhang, Y Peng. Polycrystal modeling of hot extrusion texture of AZ80 magnesium alloy.Transactions of Nonferrous Metals Society of China, 2016, 26:1063-1072.(SCI 2区，IF=2.6)

2.G Zhou,K Ananthaeswara, G Mitukiewicz, D Li, R K Mishra, M K Jain. FE simulations of gas blow forming and prediction of forming limit diagram of AZ31 magnesium sheet.Journal of Materials Processing Technology, 2015, 218:12-22.(SCI 1区，Top期刊，IF=4.6)

1. G Mitukiewicz, K Anantheshwara,G Zhou, R K Mishra, M K Jain*. A new method of determining forming limit diagram for sheet materials by gas blow forming.Journal of Materials Processing Technology, 2014, 214:2960-2970.(SCI 1区，Top期刊，IF=4.6)

上海市海外高层次人才