发布日期:2021-09-17
姓 名 | 陈威 | 出生年月 | 1988.11 | |
性 别 | 男 | 职 称 | 副教授 | |
邮 箱 | whutcw01@126.com | 硕/博导 | 硕/博导 | |
联系电话 | 15926235543 | |||
研究领域 | 舰船抗侵彻抗爆防护结构设计、智能-功能-仿生抗冲击防护结构设计、舰船毁伤与评估、海洋结构物流固耦合 | |||
个人简介 | 2018年9月获东京大学海洋技术环境学专业博士学位,长期从事舰船抗侵彻抗爆防护结构设计、智能-功能-仿生抗冲击防护结构设计、舰船毁伤与评估、海洋结构物流固耦合等方面研究,主持国家自然科学基金、基础加强技术领域基金、基础加强重点项目子课题、湖北省自然科学基金等纵向项目6项,主持重要型号科研项目10余项。荣获2023年中国商业联合会科技进步奖一等奖1项,2022年中国产学研合作创新与促进奖 产学研合作创新成果奖二等奖1项,近五年发表高水平论文70余篇,授权国家发明专利30余项,担任Ocean Engineering、Smart Material and Structures、振动与冲击等杂志审稿人,以及《Journal of Marine Science and Engineering》客座编委和《应用力学学报》青年编委(招收2025年优秀硕博士研究生……)。 | |||
教育经历 | 2013/10–2018/09,东京大学,海洋环境技术学,博士. 2010/09–2013/06,武汉理工大学,船舶与海洋结构物设计制造,硕士. 2006/09–2010/06,武汉理工大学,船舶与海洋工程,学士. | |||
工作经历 | 2021.09-至今,武汉理工大学,船海能动学院,海洋工程系,副教授,硕/博导 2018.11-2021.09,武汉理工大学,理学院,工程结构与力学系,讲师 | |||
科研项目 | 1.国家级项目:多因素耦合作用下钻柱动力学模型与数值方法研究,国家自然科学基金青年基金,在研,主持. 2.国家级项目:**舱壁仿生设计与**机理研究,JCJQ技术领域基金,在研,主持. 3.国家级项目:202114JQ02-1,基础加强(国家级)子课题,在研,主持. 4.省部级项目:考虑瞬时流固耦合的无立管钻探钻柱振动机理研究,湖北省自然科学基金青年基金,在研,主持 5.内外流耦合作用下钻管振动特性研究,大连理工大学海岸和近海工程国家重点实验室开放基金,在研,主持. 6.旋转-附体组合设计的细长体结构流致振动抑制技术研究,上海交通大学海洋工程国家重点实验室开放基金,在研,主持. 7.大容量漂浮式风电基础安装设计技术咨询项目,企业横向,在研,主持 8.202302HX61,军工横向,179.18万,在研,主持 9.202202HX100,军工横向,258万,在研,主持 10.202302HX17,军工横向,340万,在研,主持 11.202402HX08,军工横向,19.7万,在研,主持 12.202202HX42,军工横向,22.6万,结题,主持 13.202202HX01,军工横向,115万,结题,主持 14.202014HX12,军工横向,30万,结题,主持 15.202014HX10,军工横向,55万,结题,主持 | |||
代表性论文 专利及著作 |
1.Wei Chen,Chunyang Chen, Yiheng Zhang, Pu Li, Mengzhen Li, and Xiaobin Li Li. Study on the Deformation Mode and Energy Absorption Characteristics of Protective Honeycomb Sandwich Structures Based on the Combined Design of Lotus Root Nodes and Leaf Stem Veins. Journal of Marine Science and Engineering, 2024,12(4):652. 2.Dong, Qin, Geng Xu, and Wei Chen*.Experimental Research on the Low-Cycle Fatigue Crack Growth Rate for a Stiffened Plate of EH36 Steel for Use in Ship Structures. Journal of Marine Science and Engineering 2024,12.8: 1365. 3.Ya Zhang, Xiaobin Li, Xiuyi Xu, Mengzhen Li, Yiheng Zhang, Hai Huang, Wei Chen*.The Quasistatic Pressure Characteristics of a Confined Cabin in a Water Mist Environment. Journal of Marine Science and Engineering. 2024,12(9):1650. 4.Miaoran Li, Jun Li, Wei Chen*, Zhiyang Lei, Lijiang Zhou, Mengzhen Li, Chun Bao Li, and Xiaobin Li. Experimental Study of the Load-Transfer Law and Shock Environment of a Pipe–Float System. Journal of Marine Science and Engineering, 2024,12(4): 650. 5.Zhenzhou Ye, Xiaobin Li, Wei Shen, Wei Chen*, A developed theoretical analysis method for predicting the response of a bimodular composite sandwich beam. AIP Advances, 2024 Jun 1;14(6). 6.Hongtao Hu, Xiaobin Li, Caineng Wang, Changkyu Rheem, Wei Chen*, Study on the Flooding Characteristics of Damaged Barges with Dynamic Explosive Deformation, International Journal of Naval Architecture and Ocean Engineering, 2024,100589. 7.Wei Chen, Junhao Liu, Xiaofei Cao, Chun Bao Li, Ying Li, Xiaobin Li*.Study on Projectile Impact Resistance of Carbon-Glass Hybrid Bioinspired Helical Composite Laminate,Materials Today Communications,2024,39:108703 8.Yao Ji, Zhiliang Gao, Wei Chen*, Hai Huang, Mengzhen Li, Xiaobin Li,Study on the Deformation Mode and Energy Absorption Characteristics of a Corner-Enhanced Biomimetic Spider Web Hierarchical Structure, Thin-Walled Structures, 2024,199:111810. 9.Wei Shen, Yuwen Chen, Gongrong Li, Jiajing Lei,Wei Chen*, Yu Qiu. Semi-empirical formulas on notch stress field and SIF of orthotropic V-shaped thin plate with initial crack under tensile-bending loads. Engineering Fracture Mechanics. 2023, 281, 28,109040. 10.Zhenzhou Ye, Xiaobin Li, Zhiting Xu, Jiangtao Li, Wei Shen, Wei Chen. Theoretical and Numerical Approximation Methods for Predicting Bending Characteristics and Bimodulus Sandwich Structure.Acta Mechanica Solida Sinica, 2023, 36(3): 443-456. 11.Qianning Li, Xiaofei Cao, Xingxing Wu, Wei Chen*, Chunbao Li, Xiaobin Li. Investigation of the Energy Absorption Characteristics and Negative Poisson’s Ratio Effect of an Improved Star-Shaped Honeycomb. Journal of Marine Science and Engineering.2023; 11(9):1799 12.Zhiping Wang, Gang Chen, Xiaofei Cao, Wei Chen*, Chun Bao Li, Xiaobin Li. Study on the Effect of Nodal Configuration on the Mechanical Properties of Hexa-Ligamentous Chiral Honeycombs. Journal of Marine Science and Engineering.2023; 11(9):1692. 13.Zeqing Fan, Xiaobin Li, Tao Huang, and Wei Chen*. An Investigation of the Damage Mechanism of Multilayer Liquid-Containing Protective Structure under Combined Blast Wave and Fragment Loading. Journal of Marine Science and Engineering. 2023; 11(12):2327. 14.Weijun Lin, Mengzhen Li, Pu Li, Qianning Li, Wei Chen*.Study of Mechanical Properties of Three-Dimensional Framed Plate Protective Structures with Negative Poisson’s Ratio. Journal of Marine Science and Engineering. 2023; 11(12):2261. 15.Jinshun Hu, Yongshui Lin, Wei Chen.Studies on the Compressive Mechanical Properties of Antitetrachiral Honeycombs with Different Thickness Ratios of Ligament to Cylinder. Acta Mechanica Solida Sinica (2022): 1-11. 16.Yan Du, Weiguo Wu, Wei Chen,Yongshui Lin, Qingjia Chi. Control the structure to optimize the performance of sound absorption of acoustic metamaterial: A review. AIP Advances, 2021, 11(6): 060701. 17.Zhixin Huang, Ying Li*, Xiong Zhang*,Wei Chen, Daining Fang. A comparative study on the energy absorption mechanism of aluminum/CFRP hybrid beams under quasi-static and dynamic bending. Thin-Walled Structures, 2021, 163, 107772. 18.习修义,李俊,张娅,王志平,陈威*,李营,李晓彬.水雾环境下密闭舱室内爆准静态压力特性研究[J].中国舰船研究,2024,19(03):174-181. 19.苏醒,林炜钧,陈威等.椭球形气囊防撞性能及影响因素分析[J/OL].武汉理工大学学报(交通科学与工程版):1-11[2023-07-09]. 20.何林,柴威,余象鹏,陈威,冯朔.极地船舶冰载荷随机特性研究综述[J].船舶力学,2023,27(07):1109-1117. 21.张宇,李俊,周俊,陈威,谌伟,李晓彬. Mn25Al7钢焊接接头的疲劳性能试验研究[J].船舶力学,2024,28(07):1100-1110. 22.叶龙学,张琦,纪垚,陈威.典型破片侵彻船用燃油柜毁伤效应研究[J].舰船科学技术,2024,46(12):30-38. 23.王志平,徐双喜,陈威*等.带泄压孔的舱室内爆冲击波载荷特性[J/OL].中国舰船研究:1-9[2023-06-21]. 24.黄涛,陈威,彭帅等.典型舱室在战斗部内爆下的载荷及毁伤特性试验研究[J/OL].中国舰船研究:1-12[2023-06-21] 25.滕清湖,朱春晓,柴威,李晓彬,陈威*.动态爆炸破片特性及对舱室结构毁伤效应研究[J/OL].武汉理工大学学报(交通科学与工程版):1-8[2023-03-04]. 26.纪垚,徐双喜,陈威*,乐京霞,李晓彬,李营.Al/CFRP/混合蜂窝铝复合夹芯多层结构抗侵彻数值模拟[J/OL].高压物理学报:1-10[2023-03-04]. 27.王才能,李俊,李晓彬*,李聪,崔海鑫,陈威..锥形头战斗部动态爆炸破片载荷特性分析[J].船海工程,2024,53(04):13-17+23. 28.胡锦顺,林永水,陈威*,李晓彬,吴卫国.改进星形蜂窝结构面内动力学响应及能量吸收特性研究[J].振动与冲击,2022,41(23):119-128. 29.吕成刚,王壮,李晓彬,陈威*.网架箱体浮筏-艇体耦合特性及全频段隔振效果分析[J].中国舰船研究,2022,17(02):173-182. 30.朱春晓,徐双喜,陈威,李晓彬,乐京霞.负泊松比曲边内凹同心蜂窝结构冲击吸能特性研究[J/OL].武汉理工大学学报(交通科学与工程版):1-8[2022-06-13]. 31.吴选福,王壮,陈威*,李晓彬.两种箱体浮筏结构抗冲击及全频段隔振效果对比分析[J].武汉理工大学学报(交通科学与工程版):1-7[2022-02-24]. 32.杨睿,王壮,李晓彬,陈威,王浩杰.舰艇浮筏隔振系统的发展与趋势[J].船舶工程, 2020, 42(07):28-34. 33.赵留平,王壮,李晓彬,吕成刚,陈威.新型桁架箱体浮筏隔振器选型研究[J].舰船科学技术, 2020, 42(21):30-34. 34.赵哲稷,李晓彬,李智,熊宇洋,陈威*,李营.螺旋FRP/金属丝混杂组合结构抗冲击性能研究[J/OL].武汉理工大学学报(交通科学与工程版):1-10[2024-05-10]. 35.郭佳凯,朱春晓,施锐,陈威,李晓彬.冲击波作用下变形圆板表面载荷研究[J].舰船科学技术,2024,46(05):21-26. 36.韩晨健,周春奇,李攀,陈威,李晓彬等.化学品船液货舱泄爆参数分析及优化评估[J].舰船科学技术,2023,45(08):10-14.
1.Wei Chen, Yanxu Bao, Yongshui Lin, Xiaoyu Zhang, Jiangyan Shao, Qin Dong*, Chang-Kyu Rheem, Binrong Wen, Xiaobin Li. Flow-induced vibration of the drilling pipe with internal flow under the combination of control rods and rotation.Physics of Fluids, 2024,36(7). 2.Aoyue Du, Wei Chen*, Yongshui Lin, Qingjia Chi, Changkyu Rheem, Binrong Wen, Zailiang Liu, Xiaobin Li. Vortex-induced vibration of a rotating cylinder with dual splitter plates. Physics of Fluids. 2024,36(8). 3.Jie Gong, Yuan-xing Dai, and Wei Chen*. Analysis of scale effect on the propulsion discrepancy of a four-waterjet system. Ocean Engineering,2024,308: 118276. 4.Wei Chai, Lin He, Wei Chen*, Linyang Cao, Wei Shi,Chana Sinsabvarodom, Min Hu, Zailiang Liu,Short-Term Extreme Value Prediction for the Structural Responses of the IEA 15 MW Offshore Wind Turbine Under Extreme Environmental Conditions. Ocean Engineering, 2024, 306:118120. 5.Wei Chen, Aoyue Du, Yongshui Lin, Jiangyan Shao, Jian Gu, Jie Gong, Chang-Kyu Rheem, Binrong Wen, Xiaobin Li. Investigation of vortex-induced vibrations of rotating cylinders with different surface roughness. Physics of Fluids,2024,36(4): 6.Yanxu Bao, Xiaoyu Zhang, Yongshui Lin, Jiangyan Shao, Wei Chen*, Chang-Kyu Rheem, and Xiaobin Li. Investigation of coupled response on cylindrical eccentricity induced vibration and flow induced vibration. Ocean Engineering,2024, 305: 117978. 7.Xuanrui Zhang, Jun Li, Wenyao Zhang, Jiang Yan Shao, Wei Chen*, Chang-kyu Rheem, Guoqiang Tang, Xiaobin Li, Numerical investigation of the flow-induced vibration of a rotation pipe with internal flow, Ocean Engineering,2024,294:116809. 8.Xinge Geng, Weiguo Wu, Erpeng Liu, Yongshui Lin, Wei Chen*,Chang-Kyu Rheem. Experimental Study on Vibration of a Rotating Pipe in Still Water and in Flow. Polish Maritime Research, 2023,30, 3923, 65-77. 9.Ran Li, Jie Gong , Wei Chen*, Jie Li , Wei Chai, Chang-kyu Rheem, Xiaobin Li. Numerical Investigation of Vortex-Induced Vibrations of a Rotating Cylinder near a Plane Wall. Journal of Marine Science and Engineering. 2023, 11, 1202. 10.Wei Chen, Yanxu Bao, Wei Chai*, Jie Li, Chang-kyu Rheem, Yongshui Lin, Xiaobin Li. Investigation of the combined effect of control rods and forced rotation on a cylinder. Physics of Fluids,2023,35(10):103605. 11.Jian Gu, Antonio Carlos Fernandes*, Xiangxi Han,Xiaofeng Kuang, Wei Chen*.Numerical investigation of Reynolds number effects on vortex-induced vibrations at low and moderate Re regimes[J]. Ocean Engineering, 2022, 245: 110535. 12.Wei Chen, Siying Wang, Xiaotao Shi*, Chang-Kyu Rheem, Yongshui Lin, Erpeng Liu. Numerical simulation of surface roughness effects on vortex-induced vibration of a circular cylinder at subcritical Reynolds number. International Journal of Naval Architecture and Ocean Engineering, 2022,14: 100430. 13.Yanxu Bao, Yongshui Lin, Wei Chen*, Chang-Kyu Rheem, Xiaobin Li. Numerical investigation of wake and flow-induced vibration of a rotating cylinder in flow. Ocean Engineering, 2022,262:112207. 14.Xiaoyu Zhao,Weiguo Wu, Wei Chen, Yongshui Lin, Jiangcen Ke*. Multi-network collaborative lift-drag ratio prediction and airfoil optimization based on residual network and generative adversarial network. Front Bioeng Biotechnol. 2022 Sep 6; 10:927064. 15.Hao Wu, Chang-Kyu Rheem, Wei Chen*, Shuangxi Xu, Weiguo Wu. Experimental Study on the Tension of Cables and Motion of Tunnel Element for an Immersed Tunnel Element under Wind, Current and Wave. International Journal of Naval Architecture and Ocean Engineering, 2021, 13: 889-901. 16.Wei Chen,Chang-kyu Rheem, Shuangxi Xu, Xiaobin Li. Investigation of the Motion Characteristics for a Long Flexible Rotating Pipe in Flow by an IDVM-FEM Method. AIP Advances, 2021, 11(11): 115304. 17.Wei Chen, Chang-Kyu Rheem, Xiaobin Li*, Yongshui Lin. Investigation of the motion characteristics for a spring-mounted rotating cylinder in flow. Journal of Marine Science and Technology, 2020, 25(4):1228-1245. 18.Wei Chen, Chang-Kyu Rheem, Yongshui Lin*, Ying Li*. Experimental investigation of the whirl and generated forces of rotating cylinders in still water and in flow[J]. International Journal of Naval Architecture and Ocean Engineering, 2020, 12:531-540. 19.Wei Chen, Chang-Kyu Rheem, Yuanzhou Zheng*, Atilla Incecik, Yongshui Lin, Zhixiong Li*. Discrete-vortex analysis of high Reynolds number flow past a rotating cylinder. AIP Advances, 2020, 10(5), 055104. 20.Wei Chen*, Chang-Kyu Rheem. Experimental investigation of rotating cylinders in flow[J]. Journal of Marine Science and Technology, 2019, 24(1): 111-122. 21.陈威,刘炳文,刘家睿,等.控制杆-强制旋转对圆柱涡激振动的抑制作用研究[J].船舶力学,2024,28(05):705-715. 22.韩晨健,刘在良,刘二朋,陈威,林永水,李晓彬等.粗糙度与间隙比同步作用下的圆柱绕流数值模拟[J].船舶工程,2023,45(03):181-187. 23.包燕旭,张小玉,陈威*,林永水,李晓彬.单/双自由度旋转圆柱流致振动特性数值计算分析[J].船舶力学,2023,27(11):1661-1670. 24.王宗鹏,刘炳文,包燕旭,陈威*,唐国强,李晓彬等.近壁旋转圆柱流场特性数值模拟分析[J/OL].中国舰船研究:1-11[2023-06-21]. 25.吴其彪,池晴佳*,林永水,陈威.脉冲与连续声源激发的Scholte波频散特性研究[J/OL].应用力学学报:1-9[2023-03-04]. 26.刘二朋,林永水*,池晴佳,陈威,李晓彬,吴卫国.层流状态下旋转圆柱绕流数值模拟研究(英文)[J].船舶力学,2022,26(12):1749-1761. 27.余睿洁,罗良,陈威,林永水,李营.亚临界雷诺数下粗糙圆柱绕流数值模拟研究[J].应用力学学报,2022,39(05):974-980. 28.唐卫国,陈威,吴轶钢,陈硕,李晓彬.不同流动状态下旋转圆柱扰流数值模拟研究[J/OL].武汉理工大学学报(交通科学与工程版):1-8[2022-02-24] 29.周志洪,林永水,陈威,池晴佳.水下圆柱壳结构流噪声仿真及降噪技术研究[J].噪声与振动控制,2022,42(05):90-95+122. 30.徐庚,董琴,严仁军,陈威.单个拉伸过载后裂纹尖端应力应变场研究[J].应用力学学报,2021,38(05):2111-2116. 31.石健宇,谢官模,林永水,陈威,涂韶华.石健宇,谢官模,林永水等.不同三维空间数据机房气流组织模拟评价研究[J].应用力学学报,2021,38(03):1209-1217. 32.刘二朋,陈威*,林永水,王思莹,李营.不同雷诺数下二维椭圆柱绕流的数值模拟研究[J].应用力学学报,2021,38(05):2025-2031. 33.陈威# *,傅何琪,林昌奎,林永水,董琴,徐双喜.大洋科学无立管钻探钻柱扭矩实验研究[J].应用力学学报,2021,38(02):663-669. 34.林凌霄,陈威*,林永水,李营.并列双圆柱绕流特性和互扰效应数值模拟研究[J].应用力学学报,2021,38(02):844-850. 35.张艺鸣,罗良,陈威*,林永水,池晴佳.不等直径并列双圆柱绕流数值模拟研究[J].舰船科学技术,2021,43(09):48-52. 36.邓云,傅何琪,广超越,陈威*,林永水.不同外形声呐的水动力及流噪声数值模拟分析[J].中国舰船研究,2021,16(06):92-98. 37.林凌霄,陈威,林永水.单双圆柱涡激振动数值模拟研究[J].舰船科学技术, 2020, 42(13):49-53. 38.高江俊康;杨晋斌;池晴佳,刘宝,林永水,陈威.粒子群优化算法下的多声速剖面声线计算[J/OL].应用声学:1-10[2024-05-10]. | |||
授权 发明专利 |
1.一种抗碎片型回收舱 2.一种抗冲击型电源装置 3.一种使用方便的数据回收舱 4.一种具有减震功能的回收舱 5.一种船舶信号回收舱用高效隔振装置 6.一种舱内爆炸水雾消波模拟方法 7.一种船舶舱室结构破片毁伤评估模型建立方法 8.一种抗冲击型温控设备 9.一种抗冲击的仪器柜 10.一种多功能综合采集仪 11.一种无人机群位姿随动调整方法、装置、电子设备及介质 12.一种基于红外热成像的船体热模型建立方法、装置及设备 13.一种可收放气囊的桥梁防撞系统 14.一种船舶全面持续性防撞系统 15.一种配备浮动式甲板的船舶 16.一种具有自航及储能能力的船式数据回收舱 17.一种具有自储能能力的潜器型数据回收艇 18.一种水上自动飘浮船用信号回收舱
1.通过设置水下障碍物来改变水波传播方向的方法 2.一种海水淡化组件及海水淡化系统 3.一种基于涡激振动原理的可控压电发电装置 4.一种附体-旋转组合圆柱结构的涡激振动计算方法及装置 5.一种旋转圆柱的涡激振动计算方法及装置 6.一种三维钻柱的涡激振动计算方法及装置 7.一种近壁状态下的涡激振动计算方法及装置 8.聚集波浪能的方法和装置 9.一种船用缆绳去水装置及收放卷设备 10.一种考虑内流的钻柱涡激振动计算方法 11.一种水流中钻管运动模拟实验装置及实验方法 12.一种海水淡化器 13.一种水动能回收装置 | |||
所获奖励 | 1.2022年中国产学研合作创新与促进奖 产学研合作创新成果奖二等奖《超大跨距薄壁型船舶创新开发与建造示范》 2.2023年中国商业联合会科技进步奖 一等奖《船舶舱室降噪设计关键技术研发及应用》 2.2020年指导本科生毕业论文《高雷诺数下粗糙圆柱涡激振动数值模拟研究》获得全国力学类优秀毕业论文 3.2021年指导本科生毕业论文《典型多舱室结构内爆载荷下毁伤元传递规律研究》获得全国力学类优秀毕业论文 4.2023年指导本科生毕业论文《基于螺旋微结构设计的多层防护结构抗侵彻性能研究》获得优秀学士学位论文 5.2023年指导多名硕士研究生基于科研成果获得国家奖学金。 | |||
国际交流 与合作 | 多次参加国际会议,与东京大学Chang-Kyu Rheem教授团队建立了紧密的合作关系;与海外知名高校保持紧密的沟通与合作,科研成绩优异者可推荐前往国外名校联合培养、继续深造(导师全程协助申请)。 | |||
招生专业 | 博士招生专业 | 船舶与海洋工程(学术博士),机械(专业博士),持续招收优秀的硕博士研究生…………….. | ||
硕士招生专业 | 船舶与海洋工程(学术硕士),机械(专业硕士),持续招收优秀的硕博士研究生…………….. | |||
毕业生 主要去向 | 中国船舶集团第701、702、708、709、710等研究所、中国船舶系统工程研究院、广州打捞局、三一重能等企事业单位,其余出国或在国内继续攻读博士学位。 |
扫一扫在手机上查看当前页面