基本信息

 

肖鸿 博士 教授 博士生导师

西安交通大学机械工程学院

西安交通大学曲江校区西五楼

西安交通大学创新港2号巨构

xiaohongjxr(at)xjtu(dot)edu(dot)cn

English CV (PDF)

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研究方向

  • 数字化制造与智能制造
  • 智能算法与工业软件开发
  • 复合材料智能设计与先进制造
  • 3D打印

教育工作经历

2024.01-至今           西安交通大学       机械工程学院先进制造技术研究所      教授
2018.02-2023.12     西安交通大学       机械工程学院先进制造技术研究所      副教授
2016.11-2017.11     伯明翰大学          工程学院机械工程系                          访问学者
2015.02-2018.01     西安交通大学       机械工程学院先进制造技术研究所     讲师
2009.09-2014.12     西北工业大学       航空宇航制造工程                             博士
2005.09-2009.06     西北工业大学       飞行器制造工程                                学士

研究项目

  1. 2015.01-2015.12,国家重点实验室资助项目青年基金,融合装配场景及人的认知的移动三维装配工艺信息构建和传递方法研究,主持;
  2. 2015.03-2018.02,西安交通大学新讲师科研支持计划,面向复杂产品装配现场的移动三维装配工艺信息构建和传递方法研究,主持;
  3. 2016.01-2017.03,中国博士后科学基金,移动三维装配工艺信息构建与传递理论及其应用研究,主持;
  4. 2016.01-2018.12,国家自然科学基金青年科学基金,融合装配场景及人的认知的移动三维装配工艺信息构建和传递方法研究,主持;
  5. 2016.07-2020.12,国家重点研发计划子课题,多光源集群与控制技术及扫描软件开发,主持;
  6. 2019.01-2022.12,国家自然科学基金面上项目,数据驱动的复合材料强韧仿生智能设计理论及增材制造方法,主持;
  7. 2019.08-2020.07,JKW,xxx,主持;
  8. 2020.08-2021.07,JKW,xxx,主持;
  9. 2022.06-2023.04,中航西飞,预浸料性能表征与分析,主持;
  10. 2022.07-2022.12,南京晨光,异形结构件轨迹规划及优化技术服务,主持;
  11. 2023.01-2025.12,民机专项,xxx,主持;
  12. 2023.07-2026.12,611所,复杂形面整体化复合材料结构快速设计评估工具,主持;
  13. 2025.12-2027.05,611所,BUMP进气道自动铺丝轨迹设计研究,主持;

指导研究生

  1. ​​​​​​2014级硕士,张忠波(协助指导),太原科技大学,毕业去向:中兴通讯;
  2. 2015级硕士,陈    波(协助指导),郑州大学,毕业去向:INSA Lyon攻读博士学位;
  3. 2016级硕士,李    明,中南大学,毕业去向:中电39所;
  4. 2017级硕士,李    晨,西北工业大学,毕业去向:华为;
  5. 2018级硕士,张陈平,南京农业大学,优秀毕业生,毕业去向:转博;
  6. 2018级硕士,朱彦松,辽宁工业大学,转博;
  7. 2018级硕士,韩    伟,中国矿业大学,国奖、优秀毕业生、优秀硕士论文,毕业去向:华为;
  8. 2019级硕士,李    婷,西南交通大学,优秀研究生干部,毕业去向:西安荣耀;
  9. 2019级硕士,张富淦,西安交通大学,毕业去向:西安航天动力试验技术研究所;
  10. 2019级硕士,郭文辉,武汉理工大学,毕业去向:海康威视;
  11. 2020级硕士,齐    瑶,中国矿业大学,毕业去向:西安比亚迪;
  12. 2020级硕士,禾    前,中国矿业大学,优秀研究生,毕业去向:西安比亚迪;
  13. 2021级博士,柳天奇,西安交通大学;
  14. 2021级硕士,崔维军,华东理工大学,转博;
  15. 2021级硕士,井庆宇,东北大学,毕业去向:泰开集团;
  16. 2022级硕士,张翰林,吉林大学,毕业去向:华为;
  17. 2023级硕士,祁   威,太原理工大学;
  18. 2023级硕士,王   帅,中国农业大学;
  19. 2023级硕士,苗广震,青岛理工大学;
  20. 2024级博士,袁   洁,华北理工大学;
  21. 2024级硕士,樊志航,西安交通大学;
  22. 2024级硕士,韩清宁,合肥工业大学;
  23. 2024级硕士,冯元昊,河北工程大学;
  24. 2024级硕士,王俊杰,西安科技大学;
  25. 2025级博士,曹鑫铭,大连理工大学;
  26. 2025级硕士,马奕杨,中南大学;
  27. 2025级硕士,何韵涵,重庆大学;
  28. 2025级硕士,周士翔,郑州大学;

荣誉获奖

2018,复合材料自动铺丝工艺与设备研究及应用,陕西省高等学校科学技术奖一等奖,第3完成人;

2021,西安交通大学优秀硕士学位论文指导教师;

代表性论文

1.     Zhang CP, Duan YG, Joshi SC, Xiao H, Wang B, Cui WJ, et al. Multi-objective optimization of HUMM3-assisted ICAT repass treatment using Taguchi method in DoE. Composites Part a-Applied Science and Manufacturing. 2024;180.

2.     Zhang CP, Duan YG, Joshi SC, Wang B, Xiao H. Laser-assisted AFP-TPC manufacturing of CF/PEEK high-performance thermoplastic composites with low warpage-deformation defects. J Manuf Process. 2024;126:267-84.

3.     Wang J, Zhao YT, Zhu YS, Wang F, Wang XZ, Wang B, et al. 4D Printing of 3D Carbon-Medium Reinforced Thermosetting Shape Memory Polymer Composites with Superior Load-Bearing and Fast-Response Shape Reconfiguration. Advanced Functional Materials. 2024;34(51).

4.     Wang F, Ming YK, Yang FH, Xiao H, Liu TQ, Zhang CP, et al. Improving delamination resistance of 3D printed continuous fiber-reinforced thermoset composites by multi-scale synergistic toughening of mono-component polyetherketone-cardo. Composites Science and Technology. 2024;245:11.

5.     Wang F, Ming Y, Zhao Y, Yang F, Lou J, Zhu Y, et al. Fabrication of a novel continuous fiber 3D printed thermoset all-composite honeycomb sandwich structure with polymethacrylimide foam reinforcement. Compos Commun. 2024;45:101794.

6.     Wang B, Ming YK, Aboelenien A, Ziegmann G, Wang F, Xin ZB, et al. Improved structural efficiency in composite manufacturing via hammered printing for large-curvature fiber paths. Additive Manufacturing. 2024;79.

7.     Zhu Y, Ming Y, Sun J, Li S, Li S, Xiao H, et al. Joule heating synthesis of carbon fiber/graphene 3D crosslinked structure for lightning strike protection and electromagnetic interference in aerospace composites. Chemical Engineering Journal. 2023:145583.

8.     Zhao YT, Wang J, Duan YG, Liang J, Wang B, Xiao H, et al. Investigation on the mold-less curing process of 3D printing continuous carbon fiber reinforced thermoset composites based on thermoplastic shells constraint. Polymer Composites. 2023:12.

9.     Zhang CP, Duan YG, Xiao H, Hao J, Lou JH, Zhang FG. Investigation on tempering process parameters of in-situ consolidation CF/PEEK thermoplastic composites. J Manuf Process. 2023;85:345-55.

10.   Xin ZB, Ma Y, Chen YH, Wang B, Xiao H, Duan YG. Fusion-bonding performance of short and continuous carbon fiber synergistic reinforced composites using fused filament fabrication. Composites Part B-Engineering. 2023;248:10.

11.   Xiao H, Liu TQ, Li T, Duan YG. Design of damage-resistant hybrid lay-up structures for fiber-reinforced composites based on interface properties. Composite Structures. 2023;319:117210.

12.   Xiao H, He Q, Duan Y, Wang J, Qi Y, Ming Y, et al. Low-temperature 3D printing and curing process of continuous fiber-reinforced thermosetting polymer composites. Polymer Composites. 2023;44(4):2322-30.

13.   Wang J, Duan YG, Wang B, Qi Y, He Q, Xiao H, et al. Cross-linking degree modulation of 4D printed continuous fiber reinforced thermosetting shape memory polymer composites with superior load bearing and shape memory effects. Mater Today Chem. 2023;34:11.

14.   Ding Z, Xiao H, Duan Y, Wang B. Accelerating Optimization Design of Bio-inspired Interlocking Structures with Machine Learning. Acta Mechanica Solida Sinica. 2023.

15.   Ding Z, Xiao H, Duan Y, Wang B. Bio-inspired self-stitching for enhancing ductility and impact resistance of unidirectional laminated composites. Composites Science and Technology. 2023;242:110184.

16.   Zhu Y, Ming Y, Xiao H, Zhang C, Wang J, Duan Y, et al. Green synthesis of highly aligned reduced graphene oxide films with competitive performance assisted by sandwiching restriction. Diamond and Related Materials. 2022;127:109166.

17.   Zhang CP, Duan YG, Xiao H, Wang B, Xin ZB, Liu G, et al. Preparation of MWCNTs/CF/PEEK multi-scale composites with good mechanical and electrical conductivity by a two-step process of AFP and out-of-autoclave tempering. Compos Pt C-Open Access. 2022;9:15.

18.   Zhang CP, Duan YG, Xiao H, Wang B, Ming YK, Zhu YS, et al. Effect of porosity and crystallinity on mechanical properties of laser in-situ consolidation thermoplastic composites. Polymer. 2022;242:9.

19.   Zhang CP, Duan YG, Xiao H, Wang B, Ming YK, Zhu YS, et al. The effects of processing parameters on the wedge peel strength of CF/PEEK laminates manufactured using a laser tape placement process. International Journal of Advanced Manufacturing Technology. 2022;120(11-12):7251-62.

20.   Wang B, Ming YK, Zhou J, Xiao H, Wang F, Duan YG, et al. Fabrication of triangular corrugated structure using 3D printed continuous carbon fiber-reinforced thermosetting epoxy composites. Polym Test. 2022;106:10.

21.   Li X, Kang X, Xiao H, Duan Y. Low adhesion continuous constrained-surface projection stereolithography process based on curing degree control. Additive Manufacturing. 2022;54:102743.

22.   Ding ZQ, Duan YG, Xiao H, Wang B. Bio-inspired self-stitching discontinuous fiber reinforced composites with enhanced ductility and energy absorption. Compos Commun. 2022;34:7.

23.   李婷, 肖鸿, 明越科, 段玉岗, 郭文辉. 基于3D打印的混杂连续纤维增强复合材料结构设计及性能. 工程塑料应用. 2022;50(6):74-81.

24.   郭文辉, 肖鸿, 明越科, 段玉岗, 齐瑶, 禾前, et al. 高黏度材料超声辅助 3D 打印技术. 工程塑料应用. 2022;50(3):67-72+85.

25.   Zhu Y, Ming Y, Wang B, Duan Y, Xiao H, Zhang C, et al. Finite Element Analysis of Lightning Damage Factors Based on Carbon Fiber Reinforced Polymer. Materials. 2021;14(18):5210.

26.   Xiao H, Zhang C, Duan Y, Ming Y, Wang H. Improving the delamination resistance of CFRP by establishing and analyzing the micro-mechanical model. International Journal of Advanced Manufacturing Technology. 2021;117(1):217-26.

27.   Duan Y, Zhang T, Zhou J, Xiao H, Chen X, Al Teneiji M, et al. Energy-absorbing characteristics of hollow-cylindrical hierarchical honeycomb composite tubes inspired a beetle forewing. Composite Structures. 2021;278:114637.

28.   Ding Z, Wang B, Xiao H, Duan Y. Hybrid Bio-Inspired Structure Based on Nacre and Woodpecker Beak for Enhanced Mechanical Performance. Polymers. 2021;13(21).

29.   冉庆波, 肖鸿, 杨富鸿, 段玉岗. 含孔曲面自动铺丝轨迹规划算法研究. 航空学报. 2021;43(9):0-.

30.   Xiao H, Han W, Tang W, Duan Y. An Efficient and Adaptable Path Planning Algorithm for Automated Fiber Placement Based on Meshing and Multi Guidelines. Materials. 2020;13(18):4209.

31.   Wang B, Ming Y, Zhu Y, Yao X, Ziegmann G, Xiao H, et al. Fabrication of continuous carbon fiber mesh for lightning protection of large-scale wind-turbine blade by electron beam cured printing. Additive Manufacturing. 2020;31:100967.

32.   Ming Y, Zhang S, Han W, Wang B, Duan Y, Xiao H. Investigation on process parameters of 3D printed continuous carbon fiber-reinforced thermosetting epoxy composites. Additive Manufacturing. 2020;33:101184.

33.   Xin Z, Duan Y, Zhou J, Xiao H. Effect of tailored plies on the energy absorption capability of square CFRP tubes with discontinuous fibers. Composite Structures. 2019;209:150-9.

34.   Xiao H, Han W, Ming Y, Ding Z, Duan Y. A Sensitivity Analysis-Based Parameter Optimization Framework for 3D Printing of Continuous Carbon Fiber/Epoxy Composites. Materials. 2019;12(23):3961.

35.   Ming Y, Duan Y, Wang B, Xiao H, Zhang X. A Novel Route to Fabricate High-Performance 3D Printed Continuous Fiber-Reinforced Thermosetting Polymer Composites. Materials. 2019;12(9):1369.

36.   明越科, 段玉岗, 王奔, 肖鸿, 张小辉. 高性能纤维增强树脂基复合材料3D打印. 航空制造技术. 2019;62(4):34-8.

37.   Xiao H, Duan Y, Zhang Z, Li M. Detection and estimation of mental fatigue in manual assembly process of complex products. Assembly Automation. 2018;38(2):239-47.

38.   Xiao H, Duan Y, Zhang Z. Mobile 3D assembly process information construction and transfer to the assembly station of complex products. International Journal of Computer Integrated Manufacturing. 2018;31(1):11-26.

39.   Xiao H, Li L. Discussion of paper by Matieyendou Lamboni, Hervé Monod, David Makowski “Multivariate sensitivity analysis to measure global contribution of input factors in dynamic models”, Reliab. Eng. Syst. Saf. 99 (2011) 450–459. Reliability Engineering & System Safety. 2016;147:194-5.

40.   Xiao H, Duan Y. Sensitivity analysis of correlated inputs: Application to a riveting process model. Applied Mathematical Modelling. 2016;40(13):6622-38.

41.   Xiao H, Li Y, Yu J, Zhang J, Tang W. Dynamic assembly simplification for virtual assembly process of complex product in cloud computing environment. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture. 2014;228(10):1198-213.

42.   Xiao H, Li Y, Yu J, Zhang J. CAD mesh model simplification with assembly features preservation. Science China Information Sciences. 2014;57(3):1-11.

43.   Xiao H, Li Y, Yu J, Zhang J. √3-Subdivision Wavelets for Sharp Features Preservation. LNCS Transactions on Computational Science XXII. 2014;8360:115-29.

44.   Xiao H, Li Y, Yu J, Cheng H. Dynamic assembly simplification for virtual assembly process of complex product. Assembly Automation. 2014;34(1):1-15.

45.   Yu J, Xiao H, Zhang J, Cheng H, Xin B. CAD model simplification for assembly field. International Journal of Advanced Manufacturing Technology. 2013;68(9-12):2335-47.

46.   Xiao H, Li Y, Zhang K, Yu J, Liu Z, Su J. Multi-objective optimization method for automatic drilling and riveting sequence planning. Chinese Journal of Aeronautics. 2010;23(6):734-42.