一、个人基本信息

出生年月：1982.10

籍贯：江西省高安市

性别：男

民族：汉

职称：副教授

政治面貌：党员

最高学历：博士

工作单位：航空工程学院

通讯地址：中国民航大学

邮政编码：300300

办公电话：13389990223

电子邮箱：yfdeng@cauc.edu.cn

二、学习和工作经历

2013.04  哈尔滨工业大学博士毕业

2013.05  中国民航大学航空工程学院飞机系

三、主要研究方向

入选2025年全球前2%顶尖科学家，Elsevier年度中国高被引学者（2024-2025年）。

1. 航空金属材料力学性能研究

研究内容包括：材料准静态及动态力学测试系统开发、性能测试与参数标定、本构方程与断裂准则、材料失效与损伤分析、有限元方法和扩展有限元方法、数值仿真技术。

2. 先进复合材料结构设计及性能表征

研究内容包括：轻质复合材料和超材料的结构设计、制备及力学性能的研究工作，涉及到复合材料夹层结构，混杂材料与夹芯结构，轻质复合材料与结构，轻量化材料与结构。

3. 航空复合材料结构修理技术与工程应用

研究内容包括：航空复合材料结构修理技术试验分析、方案优化设计以及相关测试技术开发与应用。

近年来主持和参与项目：

[1] 横向项目，典型金属结构腐蚀评估及修理技术开发与验证，100万，2025-2026。

[2] 横向项目，基于数字孪生的含损伤结构性能评估研究技术，30万，2025-2026。

[3] 横向项目，XH2504项目铸铝力学性能及疲劳性能测试，33万，2025-2026。

[4] 工业和信息化部-重点新材料研发及应用国家科技重大专项，大直径T1000级碳纤维稳定化制备及商业航天典型结构件的应用技术（课题2子课题4：重复使用商业火箭复合材料关键部段集成制造），220万，2025-2028。

[5] 横向项目，包带分离试验测试服务，76.8万，2025-2026。

[7] 中央高校基本科研业务费项目，基于机器学习的数据驱动模型研究：表征金属材料的本构行为及其抗冲击性能，20万，2025-2026。

[8] 横向项目，钛合金材料动态力学性能试验，16.8万，2025。

[9] 横向项目，冲击载荷下超结构材料数字图像相关法(DIC)试验，12万，2025。

[10] 横向项目，铝合金聚脲复合筒加工及材料动态力学性能研究，35万，2025。

[11] 横向项目，光纤传感器环境测试，16.8万，2025。

[12] 横向项目，机体结构材料动态力学性能试验，30万，2025-2026。

[13] 天津市自然基金面上项目，芯体演化机制对碳纤维复合材料折叠夹芯结构爆炸冲击力学行为影响研究，10万，2024-2027。

[14] 横向项目，XX飞机典型复合材料结构热损伤检测与评估技术攻关壁板级热损伤检测与试验，150万，2024-2025。

[15] 横向项目，星云四星组合体电爆解锁试验高速摄像项目，11万，2024。

[16] 工信部民机专项，飞机雷电/HIRF防护持续适航状态评估研究，265万，2024-2027。

[17] 横向项目，多星堆叠星箭分离机构地面电爆解锁试验，33万，2023。

[18] 国家自然科学基面上项目，碳纳米管增强闭孔泡沫铝的短流程制备及冲击失效机理，60万，2019-2023。

[19] 横向项目，材料动态力学性能试验及本构模型研究，15万，2023。

[20] 国家自然科学基青年项目，S型褶皱混杂夹芯结构冲击失效机理及吸能特性研究，28万，2018-2021。

[21] 航空科学基金，就位效应影响下的透波复合材料多向层合板结构优化设计研究，12万，2019-2022。

[22] 横向项目，某型发动机维修保障体系研究及管理平台开发，145万，2018-2020。

四、学术兼职

中国力学学会会员，复合材料学会会员

五、著作和论文目录

发表学术论文130多篇，其中SCI/EI检索期刊70余篇，近5年代表作如下：

[1] Yunfei Deng, Hanwen Liang, Tiechun Zhang, Gang Wei. Residual flexural properties and failure mechanism maps of all-CFRP honeycomb sandwich beams after low-velocity impact[J]. Engineering Failure Analysis, 2026, 184 110306.

[2] Yunfei Deng, Jiangtao Li, Xianglin Huang. Deep learning-based real-time damage assessment of lithium-ion batteries under dynamic impact. Journal of Power Sources[J]. Journal of Power Sources, 2026, 662,238737.

[3] Yunfei Deng, Hailin Li, Gang Wei. Compressive failure analysis and shape optimization of all-composite hourglass lattice structures[J]. Engineering Failure Analysis, 2026, 184: 110343.

[4] Yunfei Deng, Han Zheng, Xianglin Huang. Failure modes and failure energy threshold of lithium-ion batteries under extreme impact[J]. Journal of Energy Storage, 2026,150. 120037.

[5] Yunfei Deng, Xiaoyu Hu. Dynamic response of composite honeycomb sandwich panels subjected to strong dynamic loading[J]. Engineering Structures, 2025,322, 119032.

[6] Yunfei Deng; Yaoxiang Jin. Compressive mechanical properties of a novel three-dimensional auxetic structure based on additive manufacturing[J]. Thin-walled Structures, 2025, 207: 112719.

[7] Yunfei Deng, Yixu Lv, Xiaoyue Yang, Chunzhi Du.Determination of residual velocity model of finite thickness material based on Artificial Neural Network[J]. Thin Walled Structures, 2025, 216, 113685.

[8] Yunfei Deng, Xiangjie Li, Jing Hu, Yimei Zheng. Research on low-velocity impact resistance of double-layer M-shaped GFRP foldcore sandwich structure[J]. Engineering Fracture Mechanics, 2025, 324, 111261.

[9] Yunfei Deng, Yuetong Wang, Han Zheng, Zhengxing Feng and Gang Wei. Research on low-velocity impact performance of polyurethane foam-filled M-type GFRP foldcore sandwich plate[J]. Journal of Composite Materials, 2025, 59(1): 29-46.

[10] Deng Yunfei, Shitong Zhang. Quasi-Static Compression response of foldcore sandwich structure based on core evolution[J]. Mechanics of Advanced Materials & Structures, 2025, 32(10): 2369-2380.

[11] Yunfei Deng, Xiaoyu Hu, Xiaoyue Yang, Haoyun Yu, Yimei Zheng. Quasi-static compressive response and energy absorption mechanism of all-CFRP honeycomb core using digital image correlation (DIC), Thin-Walled Structures, 2024, 198, 111641.

[12] Yunfei Deng, Yuetong Wang, Yijie Niu, Zhengxing Feng, Gang Wei. Research on the influence of foaming silica gel-filled on low-velocity impact performance of M-type GFRP foldcore sandwich structure[J]. Mechanics of Advanced Materials and Structures, 2024(28): 31.

[13] Yunfei Deng, Haoyun Yu, Jie Peng. Effect of composite orthogonal shape core on low-velocity impact response of laminated sandwich panel[J]. Engineering Fracture Mechanics, 2024, 307, 110288.

[14] Deng Y, Yu H, Zhang Y. Response of the orthogonal corrugated sandwich panel under low-velocity impact with different shaped impactors[J]. Thin-Walled Structures, 2024, 202, 112070.

[15] Deng Y, Yu H, Li J, et al. Experimental investigation on mechanical properties of the sandwich structure with orthogonal corrugated core reinforced by polyurethane foam[J]. Polymer Composites, 2025, 46(2).

[16] Deng Y, Niu Y, Du C. Research on low-velocity impact resistance of spherical honeycomb sandwich structures[J]. Thin-Walled Structures, 2024, 204, 112310.

[17] Yunfei Deng; Yaoxiang Jin; Hailin Li; Xuan Wang. A new hybrid auxetic structure capable of uniform deformation exhibits excellent energy absorption[J]. Smart Materials and Structures, 2024, 33, 085031.

[18] Yunfei Deng, Xiaoyue Yang, Xianglin Huang. Determination of ballistic resistance model of finite thickness material based on artificial neural network[J]. Thin-Walled Structure, 2024, 203, 112161.

[19] Yunfei Deng, Ziqiang Huang, Changning Liu, Yinbo Zhang. Improved design of 3D printed star honeycomb pressure resistance and sandwich panel protective capability[J]. Materials Today Communications, 2024, 38, 108069.

[20] Yunfei Deng, Hao Li, Yixu Lv, and Xuan Wang. Research on impact resistance of ZK61m magnesium alloy thin plate under different working conditions[J]. Mechanics of Advanced Materials & Structures, 2024, 31(30).

[21] Deng Yunfei, Yang Benzheng, Wei Gang. Ballistic performance of double-layered plates Q235 and 45 steel subjected to impact by projectiles of middle strength[J].Mechanics of Advanced Materials and Structures, 2024, 31(26): 8648-8661.

[22] Yunfei Deng, Zhongshan Wang. Evaluation of the Impact Resistance of Steel-Aluminum Laminated Target Plates with Isoplanar Density[J]. International Journal of Steel Structures, 2024, 24(3): 658-671..

[23] Yunfei Deng, Xiaoyue Yang, Huapeng Wu, Zhengxing. Feng Effect of incorporating Lode angle into fracture criterion on predicting ballistic resistance of 6061-T651 aluminum alloy plates with different thicknesses struck by blunt projectiles[J]. Engineering Fracture Mechanics, 2023, 109634.

[24] Yunfei Deng, Xiaoyu Hu, Yijie Niu, Yimei Zheng, Gang Wei. Experimental and numerical study of composite honeycomb sandwich structures under lowvelocity impact[J]. Applied Composite Materials, 2024, 31(2): 535-559.

[25] Yunfei Deng, Xupeng Liang. Hailin Li, Xu Wang, Zhengxing Feng. Experimental investigation on response mechanism and impact resistance of glass fiber reinforced polymer X-type foldcore sandwich panel subjected to low-velocity impact experiments[J]. Polymer Composites, 2024, 45(10):13.

[26] Yunfei Deng, Yao Deng, Wenquan Liu. Experimental study on low-velocity impact performance of GFRP trapezoidal corrugated sandwich structures[J]. Journal of Composites Science, 2023, 7, 272.

[27] Yunfei Deng, Xupeng Liang. Failure mechanism and impact resistance of all GFRP Miura-ori with platforms sandwich structure under low-velocity impact experiments[J]. Mechanics of Advanced Materials and Structures, 2024, 31(21):19.

[28] Yunfei Deng, Yuetong Wang, Xiongfeng Cai, Jing Du, Gang Wei. Influence of thickness on impact resistance of glass fiber woven composite laminates[J]. Journal of Applied Polymer Science, 2023, 140(27).

[29] Yunfei Deng, Xiang Li, Xiaoyu Hu, Changfang Ding. Low-velocity impact behavior of interlayer hybrid foldcore sandwich structures with carbon/glass[J]. Mechanics of Advanced Materials and Structures, 2023, DOI: 10.1080/15376494.2023.2172236.

[30] Deng Yunfei, Wang Yuetong. Research on lowvelocity impact resistance and damage characteristics of Mtype GFRP foldcore sandwich structure [J].Archives of Civil and Mechanical Engineering, 2023, 23: 193.

[31] Yunfei Deng, Xin Zhao, Mingjian Lu. Research on the impact resistance of aluminum alloy circular corrugated sandwich plates against diferent nose shape projectiles[J]. Mechanics of Advanced Materials and Structures, 2023, https://doi.org/10.1080/15376494.2023.2208115.

[32] Yunfei Deng, Yuan Yin, Huapeng Wu, Chunping Zhou, Xianzhi Zeng. The impact response and failure mechanism of sandwich plates with M-type foldcore under low-velocity impact[J]. Journal of Sandwich structures Materials, 2023, 25(6): 687-706.

[33] Yunfei Deng, Hao Li, Shitong Zhang, Jie Peng, Yanhao Wang. ZK61m magnesium alloy plate thickness effect on the impact characteristics of blunt projectiles experimental and numerical simulation studies. Engineering Fracture Mechanics, 2023, 292, 109587.

[34] Yunfei Deng, Ruiwen Wang, Yinbo Zhang, Huapeng Wu, Gang Wei. Study of dynamic mechanical behavior of 1060-H112 aluminum alloy: Experimental and numerical simulation[J]. 2023, 58(5):345-356.

[35] 邓云飞, 吴华鹏, 杨笑岳, 王轩. 基于不同断裂准则的6061-T651铝合金板抗冲击性能数值仿真研究[J]. 机械工程学报, 2023, 59(14): 138-150.

[36] 邓云飞, 尹湲, 周春萍, 王轩. 落锤冲头形状及冲击能量对玻璃纤维层合板动态性能影响研究[J]. 航空科学技术, 2023, 34 (04): 79-86.

[37] Yunfei Deng, Rui Tian, Ang Hu, Huapeng Wu, Nan Zhou, Gang Wei. Experimental investigation into the response of GFRP S-shaped foldcore sandwich panels to impulsive loading[J]. Journal of Building Engineering, 2022, 52, 104403.

[38] Yunfei Deng, Rui Tian, Ang Hu, Huiru Jia, Yonggang Yang. Dynamic response of the S-shaped composite foldcore sandwich structure under high-velocity impact loads[J]. Mechanics of Advanced Materials and Structures, 2022, DOI: 10.1080/15376494.2022.2053902.

[39] Yunfei Deng, Huapeng Wu, Yong Zhang, Xianglin Huang, Xinke Xiao, Yuhan Lv. Experimental and numerical study on the ballistic resistance of 6061-T651 aluminum alloy thin plates struck by different nose shapes of projectiles[J]. International Journal of Impact Engineering, 2022, 160: 104083.

[40] Yunfei Deng, Huiru Jia, Jianfeng Li. Numerical investigation of 2A12 aluminum alloy thin targets impacted under oblique angles by blunt-nosed high-strength projectiles[J]. Materials Today Communications, 2022, 30: 103118.

[41] Yunfei Deng, Nan Zhou, Xiang Li, Xuan Wang, Gang Wei, Huiru Jia. Dynamic response and failure mechanism of S-shaped CFRP foldcore sandwich structure under low-velocity impact[J]. Thin-Walled Structures, 2022, 173, 109007.

[42] Yunfei Deng, Nan Zhou, Huiru, Huapeng Wu. Experimental Study on the Ballistic Resistance of Sshaped CFRP Foldcore Sandwich Structure against Flat-Nosed Projectile Impacts[J]. Applied Composite Materials, 2022, 29: 1275-1291.

[43] Yunfei Deng, Xianzhi Zeng, Yuetong Wang, Jing Du, Yinbo Zhang. Research on the low-velocity impact performance of composite sandwich structure with curved-crease origami foldcore[J]. Thin-Walled Structures, 2022, 174, 109106.

[44] Yunfei Deng, Xiang Li, Xiaoyu Hu, Huapeng Wu, Chunping Zhou, Pengcheng Lu. Experimental investigation on low-velocity impact response of carbon/glass hybrid S-shaped foldcore sandwich structure[J]. Thin-Walled Structures, 2022, 180, 109921.

[45] Yunfei Deng, Bing Liu, Xiaoyu Hu, Jing Du, Xuan Wang. Low-velocity impact response and damage phenomena of hybrid S-shaped folded sandwich structure[J]. Thin-Walled Structures, 2022, 181, 109972.

[46] Yunfei Deng, Bing Liu, Xiaoyu Hu. Experimental study of the ballistic resistance of micro-bead modified epoxy resin filled S-shaped folded sandwich panels [J]. Polymer Composites, 2022, 43: 8956-8973.

[47] Yunfei Deng, Weiqi Zhang, Xianzhi Zeng, Xupeng Liang, Chunping Zhou. Experimental study of the low-velocity impact behavior of hybrid sandwich panel with S-shaped foldcore[J]. Thin-Walled Structures, 2022, 181110057.

[48] Yunfei Deng, Ruiwen Wang, Xupeng Liang, Jie Peng, Gang Wei. Design Study on the failure mechanism of 1060-H112 aluminum alloy-carbon/glass fiber laminates[J]. Ploymer composites, 2022, 44:850-862.

[49] Yunfei Deng, Xiaoyu Hu, Xiaoyue Yang, Ziqiang Huang,Yuetong Wang, Chunping Zhou. Dynamic response of Nomex honeycomb sandwich panels subjected to aluminum foam projectile impact-An experimental study[J]. Ploymer composites, 2023, 44:1017-1037.

[50] Yunfei Deng, Yuan Yin, Xiaoyu Hu & Xiang Li. Experimental and numerical research on the dynamic response of sandwich structure with Mtype foldcore under low-velocity impact[J]. Mechanics of Advanced Materials and Structures, 2022, DOI: 10.1080/15376494.2022.2145533.

[51] 邓云飞, 安静丹, 任光辉, 魏刚. 铝合金圆波纹夹芯板对半球形体低速冲击响应特性试验研究[J]. 材料导报, 2022, 36(24): 1-6.

[52] 邓云飞, 胡昂, 任光辉, 魏刚 . 7050-T7351铝合金力学性能测试及本构模型研究[J]. 材料导报, 2022, 37(3): 21060149.

[53] 邓云飞, 胡晓宇, 李浩, 黄自强, 魏刚. 发明专利—一种用于模拟高速冲击的实验装置. 2022

[54] 邓云飞, 周楠, 田锐, 魏刚. S型碳纤维褶皱夹芯结构低速冲击响应特性实 验研究. 航空学报, 2021, 43(6): 525464.

[55] Yunfei Deng, Ang Hu, Gang Wei, Ruiwen Wang, Yuan Yin, Chunping Zhou. Experimental study of the effect of GO/WMCNTs on the mechanical properties and impact response of magnesium-based fiber metal laminates. Polymer Composites, 2022, 43: 914-923.

[56] Yunfei Deng, Ang Hu, Xinke Xiao, Bin Jia. Experimental and numerical investigation on the ballistic resistance of ZK61m magnesium alloy plates struck by blunt and ogival projectiles. International Journal of Impact Engineering, 2021, 158, 104021.

[57] 邓云飞，张伟岐，吴华鹏，王轩，杜晶. 泡沫填充的S型褶皱复合材料夹芯板低速冲击响应特性. 复合材料学报, 2021, 38(8): 2605-2615.

[58] 邓云飞, 蔡雄峰, 李想, 张伟岐, 魏刚. 玻璃纤维-不锈钢网混杂增强环氧树脂层合板对球形弹斜冲击响应特性实验研究. 复合材料学报, 2021, 38(9): 2862-2874.

[59] 邓云飞, 贾茹惠, 路明建, 张银波. 2A12铝合金圆波纹夹芯板抗平头弹冲击 特性的试验研究. 中国机械工程, 2021, 32(3): 357-362+367.