教师主页移动版

综合介绍 General Introduction 李彪，博士，西北工业大学航空学院副教授、博士生导师，西安交通大学、新加坡南洋理工大学博士后。主持国家自然科学基金面上和青年项目、国家xx科技专项项目专题等课题10余项。在航空学报、Int J Fatigue、Int J Mech Sci、Eur J Mech A-Solid、Eng Fract Mech等高水平期刊发表论文20余篇，获军队科技进步一等奖、ICIRT会议最佳论文奖。担任国际SCI检索期刊《Computer Modeling in Engineering & Sciences》副主编，《失效分析与预防》青年编委。主要研究方向包括：（1）高温防护涂层强度理论；（2）腐蚀/老化、烧蚀等环境影响下高温结构完整性评估技术；（3）数据驱动的结构疲劳、损伤与断裂分析技术；（4）激光增材制造过程中热流体数值模拟方法。主要研究成果包括；发展了热力耦合条件下高温防护涂层（热障涂层、环境障涂层、搪瓷涂层等）强度评估方法及长寿命设计方法；提出了高温材料力-热-化学多场耦合理论及寿命试验方法；提出了基于数据驱动-物理基融合的结构疲劳寿命预测方法；开发了基于OpenFOAM的增材制造过程热流体模拟程序。目前，团队致力于解决复杂多场环境下航空航天重大装备结构完整性涉及的基础科学问题，拥有系列疲劳试验系统（高温/室温，应力/应变控制）、电子式高温蠕变试验机、高温摩擦磨损试验机、箱式炉（1300度和1500度）、管式炉（1500度）、力-热-化耦合试验平台等。 个人相册

教育教学

个人经历 personal experience 工作经历 教育经历 2019.7 - 至    今，西北工业大学  航空学院  副教授  博士生导师2018.3 - 2019.7, Nanyang Technological University, School of Mechanical and Aerospace Engineering, Research Fellow2016.12 - 2017.12, Nanyang Technological University, School of Mechanical and Aerospace Engineering, Visiting Scholar2016.6 - 2016.8, Tokyo University of Science, Department of Mechanical Engineering, Visiting Scholar2015.7 - 2019.4, 西安交通大学  航天航空学院  机械结构强度与振动国家重点实验室  博士后 2010.9 - 2015.7，西北工业大学  航空学院  工学博士  固体力学专业2006.9 - 2010.7，西北工业大学  航空学院  工学学士 飞行器设计与工程专业

荣誉获奖

教育教学 Education and teaching 招生信息 教育信息 欢迎报考2024级博士、硕士研究生！080100 力学；085503 航空工程Email: libiao@nwpu.edu.cn 本科生课程：计算方法(U01G11004.03)，32学时，2学分，春季；研究生课程：航空结构有限元分析（M01M21020），40学时，2学分，春季。指导大学生创新创业训练计划项目：    1. 零/负热膨胀结构的设计与变形调控方法，2020年省级项目；    2. 水氧腐蚀作用下环境障涂层的力学性能退化机理研究，2020年省级项目；    3. 基于数据驱动的结构疲劳裂纹特征识别方法研究，2021年省级项目；    4. 基于机器学习的飞机结构疲劳载荷反演方法研究，2021年校级项目。

科学研究

获奖信息 The winning information 军队科技进步一等奖，20202018 IEEE International Conference on Intelligent Rail Transportation, Best Paper Award

学术成果

科学研究 Scientific Research 主要从事的研究方向：   1.  结构疲劳、损伤与断裂力学   2.  高温结构与防护涂层的强度理论   3.  增材制造过程中的热流体力学主持科研基金与项目：13. 航天科技，密封涂层接触磨损性能研究，2022/10-2023/10，主持，在研；12. 重点实验室基金，镍基高温合金蠕变-低周疲劳性能及损伤行为研究，2022/8-2025/7，主持，在研；11. 国家xx科技专项，xxx发动机涡轮叶片寿命预测研究，2021/1-2024/12，专题主持，在研；10. 国家自然科学基金面上项目，表面沉积物诱发的环境障涂层裂纹扩展机理研究，12072272，2021/1-2024/12，主持，在研；9. 中国航发，环境障涂层水氧耦合腐蚀试验与力学模型研究，2020/1-2022/12，主持，在研；8. 航空工业，xx结构关键部位耐久性/损伤容限分析，2021/1-2021/10，主持，结题；7. 航空工业，基于xxx和xxx的寿命估算方法研究，2020/12-2021/12，主持，结题；6. 中物院，电弧熔炼过程模拟，2021/2-2-2023/3，主持，在研；5. 航天科技，xx复合涂层失效与增韧机理研究，2020/10-2021/10，主持，结题；4. 横向课题，xx理论模拟力学性能及试验夹具设计，2020/7-2021/7，主持，结题；3. 横向课题，xx材料裂纹修复技术开发，2020/7-2021/10，主持，结题；2. 中央高校基本业务经费-科研启动项目，层级热障涂层界面失效机理及增韧结构设计，2019/7-2022/7，主持，结题；1. 国家自然科学基金青年项目，层级热障涂层中弱界面裂纹的相互竞争机理，11602188，2017/1-2019/12，主持，结题。参与科研基金与项目：3. xx专项，基于xxx的xxx寿命预测模型与方法研究，2019/12-2024/12，参与，在研；2. 国家自然科学基金国际（地区）合作项目，高应变韧性抗烧结热障涂层系统：设计、制备与评价，1171101165，2018/1-2020/12，参与，结题；1. 973项目，先进重型燃气轮机制造基础研究，2013/1-2017/12，参与，结题。

综合介绍

学术成果 Academic Achievements https://scholar.google.com/citations?user=UE1G3ygAAAAJ&hl=en学术论文：28. Biao Li*, Baishun Yang, Siyuan Wang, Jie Chen, Wei Jiang. Numerical study of thermomechanical delamination mechanisms in segmented high-temperature coatings. Engineering Failure Analysis, 153: 107577, 2023. (https://doi.org/10.1016/j.engfailanal.2023.107577)27. Zhao Jing, Siqi Wang, Lei Duan, Biao Li, Xueling Fan. Buckling analysis and optimization of variable angle tow composite plates via Ritz method and variable stiffness optimization. Computers & Structures, 289: 107156, 2023. (https://doi.org/10.1016/j.compstruc.2023.107156)26. Peidong Li, Weidong Li, Biao Li, Shuo Yang, Yongxing Shen, Qingyuan Wang, Kun Zhou. A review on phase field models for fracture and fatigue. Engineering Fracture Mechanics, 109419, 2023. (https://doi.org/10.1016/j.engfracmech.2023.109419)25. Xuan Yang, Yazhi Li, and Biao Li*. Formation Mechanisms of Lack of Fusion and Keyhole-induced Pore Defects in Laser Powder Bed Fusion Process: A Numerical Study. International Journal of Thermal Sciences, 118: 108221, 2023. (https://doi.org/10.1016/j.ijthermalsci.2023.108221)24. Zhao Jing, Lei Duan, and Biao Li. Variable stiffness optimization algorithm for vibration optimization of variable-stiffness composite plates. Applied Mathematical Modelling, 116: 569-592, 2023. (https://doi.org/10.1016/j.apm.2022.12.003)23. Min-ge Duan, Yazhi Li*, Xuan Yang, Xudong Qian, Ke Liu, Hui Zhao, Biao Li. Mechanical responses of in-situ TiB2/7050 composite subjected to monotonic and cyclic loadings: A comparative study with 7050-Al. International Journal of Fatigue, 163: 107103, 2022. (https://doi.org/10.1016/j.ijfatigue.2022.107102)22. Biao Li*, Yixiu Shu, and Yazhi Li. Interface cracking behavior in high-temperature coatings with non-uniformly distributed segmentation cracks. European Journal of Mechanics - A/Solids, 96: 104674, 2022. (https://doi.org/10.1016/j.euromechsol.2022.104674)21. Ke Liu, Yazhi Li*, Weidong Wang, and Biao Li*. Modeling and simulation of mechanical-thermal-diffusional-reactional interactions in ceramic oxidation process. Ceramics International, 48(18): 26072-26097, 2022. (https://doi.org/10.1016/j.ceramint.2022.05.291)20. Biao Li, Peidong Li, Runhua Zhou, Xi-Qiao Feng, and Kun Zhou*. Contact mechanics in tribological and contact damage–related problems: A review. Tribology International, 171: 107534, 2022. (https://doi.org/10.1016/j.triboint.2022.107534)19. Xuan Yang, Yazhi Li*, Min-ge Duan, Wei Jiang, Dong Chen, Biao Li*. An investigation of ductile fracture behavior of Ti6Al4V alloy fabricated by selective laser melting. Journal of Alloys and Compounds, 890: 161926, 2021. (https://doi.org/10.1016/j.jallcom.2021.161926)18. Xuan Yang,Yazhi Li*, Wei Jiang, Min-ge Duan, Dong Chen, Biao Li*. Ductile fracture prediction of additive manufactured Ti6Al4V alloy based on an extended GTN damage model. Engineering Fracture Mechanics, 256: 107989, 2021. (https://doi.org/10.1016/j.engfracmech.2021.107989)17. Ke Liu , Yazhi Li*, Min-ge Duan, Teng Zhang, Chen Li, and Biao Li*. Fatigue life prediction of in-situ TiB2/2024 aluminum matrix composite. International Journal of Fatigue, 145: 106128, 2021. (https://doi.org/10.1016/j.ijfatigue.2020.106128)16. Shengnan Wang, Wei Tang, Chen Liu, Biao Li*, Mingfeng Tang*, and Maoping Wen. Digital image correlation measurement of the deformation and failure in PBX brazilian discs reinforced with CFRP patches. Propellants, Explosives, Pyrotechnics, 46(4): 548-554, 2021. (https://doi.org/10.1002/prep.202000153)15. Biao Li, Xueling Fan*, Tiejun Wang, and Kun Zhou*. Interfacial fracture behavior of double-ceramic-layer thermal barrier coating system with segmented structure. Engineering Fracture Mechanics, 201: 13-28, 2018. (https://doi.org/10.1016/j.engfracmech.2018.08.026)14. Biao Li, Xueling Fan*, Hiroshi Okada, and Tiejun Wang*. Mechanisms governing the failure modes of dense vertically cracked thermal barrier coatings. Engineering Fracture Mechanics, 189: 451-480, 2018. (https://doi.org/10.1016/j.engfracmech.2017.11.037)13. Biao Li, Xueling Fan*, Kun Zhou, and Tiejun Wang*. A semi-analytical model for predicting stress evolution in multilayer coating systems during thermal cycling. International Journal of Mechanical Sciences, 135: 31-42, 2018. (https://doi.org/10.1016/j.ijmecsci.2017.11.010)12. Biao Li, Xueling Fan*, Kun Zhou, and T. J. Wang*. Effect of oxide growth on the stress development in double-ceramic-layer thermal barrier coatings. Ceramics International, 43: 14763-14774, 2017. (https://doi.org/10.1016/j.ceramint.2017.07.218)11. Biao Li, Xueling Fan*, Dingjun Li, and Peng Jiang. Design of thermal barrier coatings thickness for gas turbine blade based on finite element analysis. Mathematical Problems in Engineering, 2017, 2017. (https://doi.org/10.1155/2017/2147830)10. Biao Li*, Yazhi Li, and Jie Su. A combined interface element to simulate interfacial fracture of laminated shell structures. Composites Part B: Engineering, 58: 217-227, 2014. (https://doi.org/10.1016/j.compositesb.2013.10.038)9. 胡艺伟, 李亚智, 李彪,申思雨. 纤维增强聚合物基复合材料熔融堆积成型技术的研究进展及产品的力学性能. 复合材料学报, 38(4): 979-996.8. 李彪, 李亚智, 杨帆. 考虑复合材料层合板就地效应的强度理论. 航空学报, 35(11): 3025-3036, 2014.7. 李彪，李亚智，丁瑞香. 基于物理机制的层合板失效分析方法. 复合材料学报, 30: 158-162, 2013.6. 李彪，李亚智，刘向东，苏杰. 层合板层间断裂分析的组合界面单元及其特性. 复合材料学报, 30(5): 159-165, 2013.5. 李彪，李亚智，胡博海. 一种层压复合材料组合界面单元及其有限元模型. 航空学报, 34(6): 1370-1378, 2013.4. Pengfei Tan, Fei Shen, Biao Li, Kun Zhou*. A thermo-metallurgical-mechanical model for selective laser melting of Ti6Al4V. Materials & Design, 168: 107642-107655, 2019. (https://doi.org/10.1016/j.matdes.2019.107642)3. Peng Jiang, Xueling Fan*, Yongle Sun, Dingjun Li, Biao Li, and Tiejun Wang. Competition mechanism of interfacial cracks in thermal barrier coating system. Materials & Design, 132: 559-566, 2017. (https://doi.org/10.1016/j.matdes.2017.07.018)2. Xueling Fan*, Peng Jiang, Biao Li, Xiaochao Jin, and Yong Zhao. Experimental and numerical evaluation of the ablation process of carbon/carbon composites using high velocity oxygen fuel system. Advances in Materials Science and Engineering, 2017, 2017. (https://doi.org/10.1155/2017/1543203)1. Liang Wang, Jiayi Wu, Chuanyong Chen, Chuanxiang Zheng, Biao Li, Sunil Chandrakant Joshi, and Kun Zhou*. Progressive failure analysis of 2D woven composites at the meso-micro scale. Composite Structures, 178: 395-405, 2017. (https://doi.org/10.1016/j.compstruct.2017.07.023)专利：12. 李彪, 刘珂, 董帆, 李伟光, 李亚智. 力-热-化多场耦合加载系统及加载试验方法. 申请号：202310753446.0.11. 李彪, 李晨, 李坤鹏, 陈杰, 王思远. 一种基于数字图像相关法的压电致动原位 疲劳测试系统及疲劳测试方法. 申请号：202310199613.1.10. 李彪, 杨百顺, 张一帆, 胡祥鹏. 一种基于平板弯曲曲率的高温涂层热膨胀系数的计算方法. 申请号：202210645414.4.9. 李彪, 李坤鹏, 王思远, 杨百顺, 吴孟科. 一种基于实测应变数据的金属结构裂纹特征识别方法. 申请号：202211159855.X.8. 李坤鹏, 李彪, 竺鑫桥, 胡祥鹏, 李亚智. 一种小尺寸金属圆环弹性模量测试方法. 申请号：202110410278.6.7. 李坤鹏, 李彪, 竺鑫桥, 胡祥鹏, 李亚智. 一种小尺寸试验件力学性能测试夹具. 实用新型专利, 申请号: ZL 202120782968.X.6.  李彪, 王铁军, 范学领, 李定骏, 江鹏. 一种涡轮叶片热障涂层厚度优化设计方法. 发明专利，申请号：ZL 201610854678.5..5.  李彪, 李亚智, 姚振华, 刘向东, 李玺, 刘兴科, 舒怀, 束一秀, 谢强, 王启, 王海. 分析复合材料机械连接钉载和应力分布及水平的方法. 发明专利, 授权号: ZL 201210046022.2.4.  李彪, 李亚智, 胡博海, 樊振兴, 苏杰. 一种分析复合材料层合板层间损伤的方法. 发明专利, 授权号: ZL 201210376734.0.3.  王铁军, 江鹏, 范学领, 李定骏, 李彪, 吕伯文, 郭奕蓉, 任晓雪. 一种基于卤素灯共聚焦加热技术的梯度热冲击实验装置. 发明专利，授权号：ZL 201610279068.7.2.  王铁军, 江鹏, 范学领, 李定骏, 李彪, 吕伯文, 任晓雪, 郭奕蓉. 一种多场耦合环境模拟及在线监测/观测系统. 发明专利，授权号：ZL 201610278879.5.1.  李定骏, 王铁军, 范学领, 江鹏, 李彪, 张伟旭. 热喷涂实验用多功能组合夹具. 实用新型发明专利, 授权号：ZL 201521013763.6.会议论文：27. 固体力学前沿及应用研讨会, 15-17/9, 2023, 西安（参会）.26. 李彪. 脆性材料的断裂力学研究. 第二届高压绝缘封装技术研讨会, 18-19/7, 2023, 绵阳（邀请报告）.25. Biao Li. Interfacial delamination in high-temperature coatings with segmented microstructures. The International Conference on Computational & Experimental Engineering and Sciences (ICCES2023), 26-29/5, 2023, Shenzhen.24. Kunpeng Li, Xin Qi, Biao Li*. Fatigue crack quantification model for metallic structures based on strain monitoring. The International Conference on Computational & Experimental Engineering and Sciences, 26-29/5, 2023, Shenzhen.23. 中国力学学会第120次青年学术沙龙, 19-21/5, 2023, 西安（参会）.22. 2023年六校力学学术论坛, 15-17/4, 2023, 湖州（参会）.21. 第二届飞行器服役(作战)完整性学术研讨会, 17-18/12, 2022, 西安 (组委会).20. 第七期全国疲劳专题学术研讨会：重大装备的抗疲劳设计理论及应用技术, 11-13/11, 2022, 西安（组委会）.19. 李彪. 高温防护涂层耐久性设计. 力学学科发展、极端力学前沿论坛 暨逐梦三航--翱翔人才成长发展沙龙，26/10, 2022, 西安.18. 李彪. 含密集垂直裂纹热障涂层的失效模式形成机理研究. 中国力学大会-2021+1, 05-10/11, 2022, 成都 (线上).17. 李彪. 非均匀分段热障涂层的界面断裂行为及增韧效果研究. 第二十一届全国疲劳与断裂学术会议, 21-24/08, 2022, 青岛.16. 第一届飞行器服役(作战)完整性学术研讨会, 16-17/10, 2021, 西安 (组委会).15. 第六期疲劳学术专题研讨会, 28/5-30/5, 2021, 天津 (参会).14. 李彪. 含密集垂直裂纹双陶瓷层热障涂层的增韧机理研究. 损伤与断裂力学及其工程应用研讨会, 21/5-23/5, 2021, 武汉.13. Biao Li. Analysis of interfacial fracture of double-ceramic-layer thermal barrier coatings with segmented structures.  COMPSAFE2020, 9-11 December, 2020, Kobe, Japan (online).12. Biao Li, Fei Shen, Lichun Bai, Kevin Kho, Wai Yi Ng, Fairuz Mohamad, Swee Thiam Lim and Kun Zhou. Numerical Analysis of Rail Wear Behavior in Railway Systems. 7th International Conference on System Modeling and Optimization, 16-19 February 2019, Rome, Italy.11. Lichun Bai, Biao Li, Fei Shen, Ng Wai Yi, Mohamad Fairuz, Lim Swee Thiam, Kun Zhou. An integrated approach for predicting wear and fatigue damage of wheels and rails in SMRT systems. 2018 IEEE International Conference on Intelligent Rail Transportation, 12-14 December, 2018, Singapore.10. Biao Li, Xueling Fan, Tiejun Wang. An optimization design method for thermal barrier coatings thickness distribution of gas turbine blade. The 10th Internaitonal Conference on Fracture & Strength of Solids, 28th August - 1st September, 2016, Tokyo, Japan.9. Biao Li, Xueling Fan, Feng Xie, Tiejun Wang. Thickness Optimization of Thermal Barrier Coatings for Gas Turbine Blade based on Finite Element Analysis. The 12th Word Congress on Computational Mechanics & The 6th Pacific Congress on Computational Mechanics, 24-29 July, 2016, Seoul, Korea.8. Biao Li and Xueling Fan. Nonlinear failure analysis of laminated composites under combined tension/compression and shear loading. 19th National Conference on Composite Materials, 14-16 October, 2016, Xi'an, China.7. Biao Li, Xueling Fan, Yazhi Li. Prediction of failure envelops for laminated composites including in-situ effect. The Chinese Congress of Theoretical and Applied Mechanics, 2015, 15-18 August, 2015, Shanghai, China.6. Biao Li, Yazhi Li. Influence of span ratio on the four-point bend end notched flexure test. 20th International Conference on Composite Materials, 19-24 July, 2015, Copenhagen, Denmark.5. Biao Li, Yazhi Li. Theoretical prediction of failure envelopes for composite laminates including in-situ effect. Mechanical Engineering Seminar, 2015, 24-28 March, 2015, Suwa, Japan.4. Biao Li, Yazhi Li. CDM based nonlinear failure analysis of composite laminates. 1st International Conference on Computational and Experimental Methods for Composite Materials and Structures, 10-12 September, 2014, Harbin, China.3. Biao Li, Yazhi Li, Jie Su. A new interface element for shell structures delamination analysis. 13th International Conference on Fracture, 16-21 June, 2013, Beijing, China.2. Biao Li, Yazhi Li, Ruixiang Ding. Physically based failure analysis method for laminated composites. 1st China Internaiton Congress on Composite Materials, 10-13 September, 2013, Beijing, China.1. Biao Li, Yazhi Li, Xi Li. Numerical simulation of compression-after-impact process of composite laminates. Key Engineering Materials, 2013, 525-526: 265-268. 11th International Conference on Fracture and Damage Mechanics, 18-21 September, 2012, Xi’an, China.