邓耀骥，博士，硕士研究生导师；江苏省科技副总、Viser学术专家委员会委员、中国汽车学会青委会会员、轮胎动力学协同创新联盟会员、国际仿生工程学会会员；主要研究方向包括：智能安全轮胎理论与方法、智能运载系统人—车—路—云协同技术、新结构与新材料力学；主持或参与总装备部装备探索研究重大资助项目、陆军装备预研专用技术项目、国家自然科学基金面上项目、江苏省高等学校基础科学（自然科学）研究项目(A类资助)、扬州市市校合作项目、高层次人才科研启动项目等；在国内外权威期刊发表学术论文30余篇，其中以第一/唯一通讯作者身份发表SCI检索论文13篇 (中科院二区以上9篇)，h指数13；在智能汽车、安全防爆车轮、轮胎性能测试等领域，申请发明专利30余项，授权发明专利16项；担任World Electric Vehicle Journal (EI) 客座编辑，Science Robotics (中科院一区，IF25)、IEEE Transactions on Intelligent Transportation Systems (中科院一区)、Mechanical Systems and Signal Processing (中科院一区)、IEEE Transactions on Transportation Electrification (中科院一区)、Mechanism and Machine Theory (中科院一区) 等50多个SCI期刊审稿专家；指导学生获省级以上创新/创业计划项目3项(优秀结题1项)，获省级以上学科竞赛奖项6项。

部分论文列表如下：

[11] Liu Tao（学生一作）, Deng Yaoji*, Keyu Lu, et al. Mechanical properties analysis of non-pneumatic tire with gradient honeycomb structure[J]. ENGINEERING SCIENCE&TECHNOLOGY,AN INTERNATIONAL JOURNAL, 2024, 59:101871. （SCI, 中科院二区，JCR1区）

[10] Deng Yaoji*, Liu Tao, Zhiyue Wang, et al. Numerical study of steady-state dynamic characteristic of non-pneumatic tire with local structural damage[J]. EUROPEAN JOURNAL OF MECHANICS-A/SOLIDS, 2024, 108:105428.（SCI, 中科院二区，JCR1区）

[9] Deng Yaoji*, Zhiyue Wang, Youqun Zhao, et al. Numerical Prediction of Ride Comfort of Tracked Vehicle Equipped with Novel Flexible Road Wheels[J]. CHINESE JOURNAL OF MECHANICAL ENGINEERING, 2024, 37(1).（SCI, 中科院二区，JCR1区）

[8] Deng Yaoji*, Liu Tao, Lu Keyu, et al. Health Monitoring Method of Non-pneumatic Tire Based on Fusion Dimensionality Reduction and Deep Learning[J]. IEEE TRANSACTIONS ON INTELLIGENT VEHICLES, 2024:1-13.（SCI, 中科院一区，JCR1区）

[7] Deng Yaoji*, Zhiyue Wang, Liu Tao, et al. Static and dynamic mechanical characteristics of honeycomb non-pneumatic tire under structural damage condition[J]. EUROPEAN JOURNAL OF MECHANICS-A/SOLIDS, 2023, 102:105120.（SCI, 中科院二区，JCR1区）

[6] Deng Yaoji*, Zhiyue Wang, Hui Shen, et al. A comprehensive review on non-pneumatic tyre research[J]. MATERIALS&DESIGN, 2023, 227:111742.（SCI, 中科院二区，JCR1区，TOP期刊）

[5] Deng Yaoji *, Zhao Youqun*, Lin Fen, et al. Influence of structure and material on the vibration modal characteristics of novel combined flexible road wheel[J]. DEFENCE TECHNOLOGY, 2022, 18(7):1179-1189.（SCI, 中科院二区，JCR1区）

[4] Deng Yaoji, Youqun Zhao*, Xu Han, et al. Rigid-flexible coupling modelling and dynamic performance analysis of novel flexible road wheel. PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS,PART K:JOURNAL OF MULTI-BODY DYNAMICS, 2019, 234(1):67-81.（SCI, 中科院四区，JCR3区）

[3] Deng Yaoji, Youqun Zhao*, Mingmin Zhu, et al. Comparative Analysis of Static Loading Performance of Rigid and Flexible Road Wheel based on Finite Element Method[J]. DEFENCE SCIENCE JOURNAL, 2020, 70(1):41-46.（SCI, 中科院四区，JCR4区）

[2] Deng Yaoji , Zhao Youqun*, Xu Han, et al. Finite element modeling of interaction between non-pneumatic mechanical elastic wheel and soil.PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS,PART D:JOURNAL OF AUTOMOBILE ENGINEERING, 2019, 233(13):3293-3304.（SCI, 中科院四区，JCR3区）

[1] Deng Yaoji, Zhao Youqun*, Fen Lin, et al. Simulation of steady-state rolling non-pneumatic mechanical elastic wheel using finite element method.[J]. SIMULATION MODELLING PRACTICE&THEORY, 2018, 85:60-79.（SCI, 中科院二区，JCR1区）

欢迎勤奋努力、有上进心的本科生或研究生加入团队，联系方式：15651013895，yjdeng@yzu.edu.cn

Researchgate网址：https://www.researchgate.net/profile/Yaoji-Deng