姓 名:万云
职称职务:副教授/副所长
电子邮箱:wanyun0505@163.com
一、个人简介
1985年生,博士,博导,江西省中青年骨干教师,华东交通大学土木建筑学院防灾减灾研究所副所长,中国复合材料学会高级会员。近五年发表SCI论文20余篇(第一/通讯),其中JCR Q1论文18篇(含4篇中科院Q1 Top);第一发明人身份申请/授权国家发明专利6项。主持国家自然科学基金项目2项、省级项目4项(含省级重点教改项目1项)。
二、研究方向
复合材料结构力学、成型监测、损伤表征和预报、混凝土结构加固、智能结构和传感器
三、主要学习、工作经历
2004/08-2015/06 哈尔滨工程大学,飞行器设计与工程/本科;飞行器设计/硕士;固体力学/博士
2015/06-至今 华东交通大学,土木建筑学院,讲师/副教授
2013/3-2013/12 香港理工大学,机械工程系,研究助理
四、指导研究生
[1]. 2018级杨海龙、2019级胡文龙、2020级姚剑、2021级刘一辉、2022级汤昌福、2023级谢宸林共获研究生国家奖学金6人次。
[2]. 2019级胡文龙获江西省优秀硕士论文。
[3]. 胡文龙保送(审核制)同济大学读博,刘一辉保送(审核制)武汉理工大学读博,2022级王李福2023级谢宸林于华东交通大学硕博连读。
五、主要纵向科研项目(主持)
[1]. 国家自然科学基金地区基金,12362016,基于纳米材料填充界面的热塑性复材的低速冲击损伤演化原位监测和热修复,31万,2024/1-2027/12,在研,主持;
[2]. 国家自然科学基金青年基金,12002126,基于碳纳米管电阻变化的复合材料成型和服役过程性能原位测量监测方法,24万,2021/1-2023/12,结题,主持;
[3]. 江西省自然科学基金,20252BAC240346,绿色复合材料界面剪切应力的原位测量、微小损伤原位评估及损伤修复方法,10万,2025/1-2027/12,在研,主持;
[4]. 江西省自然科学基金, 20224BAB201016,基于纳米材料填充界面的热塑性复合材料原位损伤监测和修复机理,10万,2023/1-2024/12,结题,主持;
[5]. 江西省重点研发,20171BBE50024,冲击载荷下高速列车复杂曲面复合材料头罩的结构损伤健康监测技术研究,20万,2017/1-2019/12,结题,主持;
六、代表作论文(第一/通讯作者,SCI/EI检索,之十)
[1]. Yun Wan, Yihui Liu, Bin Yang* et. al. Failure mechanism of curved composite laminates subjected to low-velocity impact, Acta Mechanica Sinica, 2023, 39(12): 1-11.
[2]. 万云, 鲁琳, 杨斌*, 等. 嵌入金属网层热塑性复合材料的界面损伤机制与原位修复. 复合材料学报, , 2025, 44(0): 1-12.
[3]. Yun Wan, Bin Yang*, Yonghu Huang et. al. Impact and CAI behavior of sandwich panel comprised of foam core and wire nets/glass fiber reinforced epoxy hybrid facesheets, Journal of Sandwich Structures and Materials, 2021.09.1, 23(6): 2614-2637.
[4]. 万云*, 刘一辉, 姚剑, 等. 碳纤维-金属网增强复合材料低速冲击和界面损伤机制. 复合材料学报, 2023, 40(11): 5716-5727.
[5]. Lifu Wang(博士生), Yun Wan *, Chaojiang Li. Experimental investigation on GFRP double-bolt single-lap joints subjected to low-velocity impact and post-impact tension. Construction and Building Materials, 2025, 476: 1261.
[6]. Changfu Tang(硕士生), Yun Wan *, Fangxin Wang *. Damage monitoring on inter-lamination of GFRP via the resistance change of the MWCNT@GF sensor. Composites Communications, 2024. 52: 102137.
[7]. Yilong Chen(硕士生), Yun Wan *, Chaojiang Li, et al. Post-LVI tensile behavior of mechanical joint for GFRP/metal mesh hybrid laminate. Polymer Composites, 2025, 46(9): 7882-7895.
[8]. Yun Wan, Jian Yao, Zuxiang Lei * et.al. Experimental studies of low-velocity impact behavior on hybrid metal wire net/woven carbon-fiber reinforced composite laminates, Composites Communications, 2022, 32: 101185.
[9]. Yun Wan; Chengyan Diao; Bin Yang*, et. al, GF/epoxy laminates embedded with wire nets: A way to improve the low-velocity impact resistance and energy absorption ability, Composite Structures, 2018.10.15, 202: 818-835.
[10]. Yun Wan, Hailong Yang, Bin Yang* et. al. Mode I interlaminar crack length prediction by the resistance signal of the integrated MWCNT sensor in WGF/epoxy composites during DCB test, Journal of Materials Research and Technology, 2020.5.1, 9(3): 5922-5933.
七、近五年论文(第一/通讯作者,SCI/EI检索,代表作之外)
[1]. Chao Ma, Chaojiang Li, Yun Wan*, et al. Experimental Study on Energy Absorption Mechanism of Aluminum /GFRP Composite Hybrid Tubes Subjected to Lateral Impact Loads. Polymer Composites, 2025, https://doi.org/10.1002/pc.70326.
[2]. Lihong Tong, Peijia Zhong, Yun Wan*, et al. Low-Velocity Impact Behavior of GFRP With Shear Thickening Fluid Modified Resin Matrix. Polymer Composites, 2025,https://doi.org/10.1002/pc.70040.
[3]. Ye Wu*, Zhao Shen, Yun Wan *, et al. Mechanical failure behavior on CFRP T-joints of stitching reinforcement subjected to low-velocity impact and post-impact tension. Polymer Composites, 2025, https://doi.org/10.1002/pc.29572.
[4]. Chenlin Xie(硕士生), Yun Wan *, Lifu Wang, et al. Experimental investigation on the compression-after double-impact behaviors of GFRP laminates embeddedwith aluminum mesh. Polymer Composites, 2025; 46(3): 2138-2148.
[5]. Hongyuan Huang, Xuan Gao, Yun Wan *, et al. Experimental investigation on low-velocity impact and compression after impact behaviors of GFRP laminates with steel mesh reinforced. E-Polymers, 2024, 24(1): 20240078.
[6]. Liangliang Zhang, Chaojiang Li, Yun Wan *, et al. Crashworthiness of GFRP/aluminum hybridsquare tubes under quasi-static compression and single/repeated impact. E-Polymers, 2024, 24(1): 20240101.
[7]. Yun Wan, Lifu Wang, Ye Wu *, et al. Experimental investigation on the low-velocity impact response and the residual strength of CFRP tubes. Polymer Composites, 2024, 45(10): 8677–8693.
[8]. Ye Wu, Jiaqiang Xiong, Yun Wan *, et al. An experimental study on the failure mechanism of local-strengthening glass fiber reinforced polymer T-joints under/after the low-velocity impact loading. Journal of Composite Materials, 2023, 57(30), 4699-4708.
[9]. Yun Wan, Fangxin Wang *, Bin Yang *, et al. Structural enhancement and repair of CFRP T-joint by the crossembedded SMA wire. Composites Communications, 2023.08.1, 41: 101634.
[10]. Yun Wan, Wenbin Lu, Bin Yang*, et al. Tensile behavior of the bolt-jointed GFRP after low-velocity impact. Polymer Composites, 2023, 44(5): 2645-2655.
[11]. Yihui Liu(硕士生), Yun Wan*, Shuangxi Zhou, et al. Experimental investigation on the compression-after-double-impact behaviors of GF/epoxy laminates embedded with/without metal wire nets. Case Studies in Construction Materials, 2023, 18: e01783.
[12]. Hao Li, Cong Jiang, Yun Wan *, et al. Numerical Study on the Progressive Damage Behavior of the Interfacial Debonding between Shape Memory Alloy and Polymer Matrix. Materials, 2023, 16(1): 168.
[13]. Zuxiang Lei, Chunyu Cheng, Yun Wan* et.al. Low-velocity impact responses and failure mechanisms of CFRP after fire exposure. Composites Communications, 2022, 34: 101277.
[14]. Yun Wan, Wenlong Hu, Bin Yang * et. al. In-situ monitoring of glass fiber/epoxy composites by the embedded multi‐walled carbon nanotube coated glass fiber sensor: From fabrication to application, Polymer Composites, 2022, 43(7): 4210-4222.
[15]. Yun Wan, Wenlong Hu, Bin Yang * et. al. On-line tensile damage monitoring of WGF/epoxy T-joint by the embedded MWCNT@WGF sensor, Composites Communications, 2021,2.01, 23: 100541.
[16]. Yun Wan, Hailong Yang, Bin Yang * et. al. Low-velocity impact damage localization of GF/epoxy laminates by the embedded MWCNT@GF sensor network, Journal of Materials Research and Technology, 2020.7.1, 9(4): 9253-9261.
[17]. 万云*, 杨海龙, 周双喜, 郑智秋, 陈莘莘, 罗文俊, 黄永虎. 缺陷对纤维金属层板低速冲击性能影响规律. 哈尔滨工程大学学报, 2020, 41(7): 1022-1028.
八、专利
[1]. 一种碳纤维复合材料T型接头及其制作方法、修复方法. 发明人:万云, 姚剑, 姜志远, 黄民睿, 杨斌, 雷祖祥, 2023-4-25, 专利号: ZL 2022 1 0383022.5 (发明专利)
[2]. 一种具有原位监测功能的T形接头构件. 发明人:万云,胡文龙,余粤凯,熊佳强,姚剑,2021-8-24,授权号:CN 214027330 U(实用新型专利)
[3]. 一种具有原位检测功能的桥面板制备装备. 发明人:马灵勇,万云,肖俊,屠汀,2021-8-24,授权号:CN 214027322 U(实用新型专利)
[4]. 一种悬吊减震装置. 发明人: 黄永虎,张红丽,罗文俊,万云, 2019-8-30, 授权号:201810259177.1. (发明专利)
[5]. 一种风车式斜拉索减振系统. 发明人:黄永虎,张红丽,罗文俊,陈莘莘,万云, , 2019-8-30, 授权号:201821932074.9. (实用新型专利)
[6]. 一种落锤式低速冲击试验台. 发明人: 万云,杨海龙,陈莘莘,罗文俊,周双喜,童谷生. 2019-9-6, 授权号: 201920052501.2. (实用新型专利)
