师资队伍

头像

魏洋

职称: 教授 专业: 土木工程、森林工程 导师类型: 博士生导师 毕业院校: 东南大学 电子邮箱: wy78@njfu.edu.cn
  • 个人情况

    魏洋,博士,教授(二级)博士生导师中国致公党党员。现任土木工程学院院长,江苏省政协委员。

    20006月毕业于石家庄铁道学院建筑工程系,获学士学位,20029月至20076月硕-博连读于东南大学土木工程学院,获博士学位,20079月到南京林业大学土木工程学院从事教学科研工作,20107月被评为副教授,20157被破格评为教授。

    目前,主要从事新型材料与新型结构及结构服役性能提升技术研究,研究方向包括低碳新型竹木结构、桥梁服役性能提升、可持续组合结构等。在Composite StructuresEngineering StructuresThin-Walled Structures土木工程学报等杂志上发表论文200余篇,其中第一/通讯发表SCI论文140余篇,授权发明专利50余项,主编江苏省省级工法3部,副主编建设部标准1、行业技术指导手册1

    先后主持国家自然科学基金、江苏省自然科学基金、江苏省重点研发项目及横向服务课题60余项,获选国家百千万 人才”工程国家有突出贡献中青年专家、国务院特殊津贴专家、国家课程思政教学名师和团队、江苏特聘教授、江苏省“333高层次人才工程(验收优秀)、江苏省六大人才高峰、江苏省青蓝工程团队带头人、江苏省青蓝工程中青年学术带头人(验收优秀)等,连续入选爱思唯尔(Elsevier)中国高被引学者、斯坦福大学全球前2%顶尖科学家榜单,入选2024江苏省最美科技工作者。

    国家科技进步二等奖、江苏省科学技术进步奖一等奖、中国公路学会技术进步奖二等奖、中国发明创业成果二等奖、中国商业联合会科学技术进步奖一等奖、二等奖、中国发明创业奖人物奖等,获得江苏省教学成果等奖二等奖4篇论文入选ESI高被引论文,3篇论文入选国际期刊Top cited paper3篇论文入选领跑者5000——中国精品科技期刊顶尖论文,主编江苏省重点教材3。主持上线中国大学MOOC课程桥梁检测评定与加固技术主持入选国家课程思政示范课程1门、国家线上线下混合课程1门,主持入选江苏省研究生课程思政示范课程1门、江苏省一流课程2

    主持建设获批江苏省公路智能检测与低碳养护工程研究中心、江苏省竹木固碳材料与结构技术工程研究中心、江苏省桥梁智能建造与安全运维重点实验室、江苏省竹木装配式建筑全产业链设计研发示范基地。

    应邀担任全国农林院校土木工程专业学科联盟首届常务副理事长、中国林学会森林工程分会副理事长、南京土木建筑学会道路与桥隧工程分会主任委员、高等学校土木工程专业规划教材编委会(交通版)副主任委员、高等学校交通运输与工程类专业教材建设委员会桥梁工程分委员会委员、江苏省综合交通运输学会公路分会常务委员、江苏省复合材料学会常务理事、Current Chinese Science编委,以及30个国内外著名期刊客座主编及评审人,教育部等科技奖、国家自然科学基金、教育部学位论文等评审专家

    研究生招生方向:桥梁与隧道工程、结构防灾与减灾、道路与铁道工程、道桥与市政工程等。


  • 研究方向

    桥梁与隧道工程、结构工程、结构防灾与减灾

  • 学习与工作经历
  • 主讲课程

    1. 中国大学MOOC在线课程 桥梁检测评定与加固技术https://www.icourse163.org/course/NJFU-1206940801

    2. 结构设计原理

    3. 桥梁加固技术

    4. 桥梁钢结构

    5. 土木工程材料

    6. 基础工程

    7. 大跨径桥梁设计与施工(硕士生)

    8. 结构检测评定与加固技术(硕士生)

    9.结构工程专论(博士生)


  • 教学与科研项目

    1. 荷载与环境耦合作用下竹-混凝土组合梁的长期性能研究(国家自然科学基金,52378244

    2. 新型FRP-钢复合管海水海砂混凝土柱受力性能及其基于可修复性的抗震设计方法(国家自然科学基金,51778300

    3. 考虑界面滑移的新型竹-混凝土组合结构力学行为与设计理论研究(国家自然科学基金,51208262

    4. FRP-钢复合管海砂混凝土组合结构关键技术研究(江苏省重点研发计划,BE2020703

    5. 新型钢管约束竹结构力学行为及设计理论研究(江苏省自然科学基金项目,BK20231293

    6. 生物质竹纤维复合管约束混凝土柱的力学行为与设计理论研究(江苏省自然科学基金项目,BK20191390

    7. 矩形FRP-钢复合管混凝土柱的受力特性及其低周反复荷载下的性能分析(江苏省自然科学基金项目,BK20151520

    8. 嵌入式FRP-钢复合筋抗弯加固混凝土梁的应用基础研究(江苏省自然科学基金项目,BK2009483

    9. 现代竹结构休闲农业景观营造关键技术(江苏省农业自主创新项目)

    10. 中小跨桥梁加固新型技术研究(江苏省产学研合作项目,BY2020410

    11. 城市地下复杂环境深大基坑开挖及支护关键技术研究(横向委托)

    12. 钢管混凝土柱加固模型试验研究研究(横向委托)

    13. 宜长高速跨S342省道钢箱梁施工实时监测技术研究(横向委托)

    14. 京沪高速扩建桥梁拆除架设施工技术研究(横向委托)

    15. 预应力碳纤维板加固桥梁技术及产品研发(横向委托)

    16. 宜长高速楼下大桥施工实时监测技术研究(横向委托)

    17. 中小跨桥梁加固新型技术研究(横向委托)

    18. 桥梁加固施工标准化技术研究(横向委托)

    19. 桥梁施工复杂新技术研究(横向委托)

    20. 南京东坝桥施工监控监测技术研究(横向委托)

    21. 红山路拆建垃圾资源化利用项目试点技术(横向委托)

    22. 311省道运河特大桥施工监控技术研究(横向委托)

    23. 329国道舟山段改建工程桥梁与高边坡施工监测技术研究(横向委托)

    24. 宁和城际轨道交通一期工程TA12标施工监测(横向委托)

    25. 体外预应力改善大跨径混凝土连续梁桥的长期受力性能研究(横向委托)

    26. 济祁高速涡河特大桥监控、监测技术研究(横向委托)

    27. 南通新江海河大桥主桥施工模型分析研究(横向委托)


  • 学术成果

    主要学术论文

    1. Wei Yang*, Bai Jiawen, Zhang Yirui, Miao Kunting, Zheng Kaiqi. Compressive performance of high-strength seawater and sea sand concrete filled circular FRP-steel composite tube columns [J]. Engineering Structures, 2021, 240 (8):112357.SCI/EI收录)高被引论文

    2. Zhang Yirui, Wei Yang*, Bai Jiawen, Wu Gang, Dong Zhiqiang. A novel seawater and sea sand concrete filled FRP-carbon steel composite tube column: Concept and behavior [J]. Composite Structures,2020,246(8): 112421.SCI/EI收录)高被引论文

    3. Yan Zicheng, Wei Yang*, Du Hao, Ding Mingmin, Li Guofen. Experimental and theoretical study on flexural performance of reinforced bamboo-concrete composite beams [J]. Engineering Structures, 2025, 325:119503.(SCI/EI 收录)

    4.Huang Zhe, Wei Yang*, Zou Xingxing, Liu Jie, Wang Qiudong. Comparative bond-slip responses of CFRP tubes in seawater sea sand concrete after epoxy mortar modification [J]. Construction and Building Materials, 2024,457:139399.(SCI/EI 收录)

    5. Wei Yang, Zhu Chao, Miao Kunting, Jile Chai, Zheng Kaiqi. Compressive behavior of rectangular concrete-filled fiber-reinforced polymer and steel composite tube columns with stress-release grooves [J]. Composite Structures, 2022, 281:114984. SCI/EI收录)

    6. Miao Kunting, Wei Yang*, Zhang Shichang, Zheng Kaiqi, Ding Mingmin. Eccentric compression behavior of concrete-filled steel tube columns strengthened by CFRP/steel strip [J]. Engineering Structures, 2023, 287: 116191.SCI/EI收录)

    7. Wei Yang*, Zhang Yirui, Chai Jile, Wu Gang, Dong Zhiqiang. Experimental investigation of rectangular concrete-filled fiber reinforced polymer (FRP)-steel composite tube columns for various corner radii [J]. Composite Structures, 2020,244(7):112311.SCI/EI收录

    8. Wei Yang*, Zhang Xi, Wu Gang, Zhou Yongfeng. Behaviour of concrete confined by both steel spirals and fiber-reinforced polymer under axial load [J]. Composite Structures, 2018, 192(5): 577-591.SCI/EI收录

    9. Zhang Yirui, Wei Yang , Bai Jiawen, Zhang Yongxing. Stress-strain model of an FRP-confined concrete filled steel tube under axial compression [J]. Thin-Walled Structures, 2019,142(9): 149-159.SCI/EI收录)

    10. Zhang Yirui, Wei Yang*, Miao Kunting, Li Bing. A novel seawater and sea sand concrete-filled FRP-carbon steel composite tube column: Cyclic axial compression behaviour and modelling [J]. Engineering Structures, 2022,252:113531SCI/EI收录)

    11. Miao Kunting, Wei Yang*, Dong Fenghui, Zheng Kaiqi, Wang Jiaqing. Experimental study on concrete-filled steel tube columns with inner distributed seawater and sea sand concrete-filled FRP tubes under axial compression [J]. Composite Structures, 2023, 320: 117181.

    12. Wang Gaofei, Wei Yang , Shen Cong, Huang Zhe, Zheng Kaiqi. Compression performance of FRP-steel composite tube-confined ultrahigh-performance concrete (UHPC) columns [J]. Thin-Walled Structures, 2023,192:111152.SCI/EI收录)

    13. Wei Yang, Yan Shaocong, Zhao Kang, Dong Fenghui, Li Guofen. Experimental and theoretical investigation of steel-reinforced bamboo scrimber beams [J]. Engineering Structures, 2020, 223 (12):111179.SCI/EI收录

    14. Wei Yang*, Tang Shuaifeng, Ji Xuewei, Zhao Kang, Li Guofen. Stress-strain behavior and model of bamboo scrimber under cyclic axial compression [J]. Engineering Structures, 2020, 209 (4):110279.SCI/EI收录

    15. Zhang Yirui, Wei Yang, Bing Li, Wang Gaofei, Huang Linjie. A novel seawater and sea sand concrete-filled FRP-carbon steel composite tube column: Seismic behavior and finite-element analysis [J]. Engineering Structures. 2022,270:114872. SCI/EI收录)

    16. Wu Fengyi, Wei Yang*, Lin Yu, Zhao Kang, Huang Linjie. Experimental study of bamboo scrimber-filled steel tube columns under axial compression [J]. Engineering Structures, 2023, 280:115669.SCI/EI收录

    17. Zhao Zhuang, Wei Yang*, Wang Gaofei, Zhang Yirui, Lin Yu, Axial compression performance of circular UHPC-filled stainless-steel tubular columns [J]. Engineering Structures, 2024, 302: 117430.SCI/EI收录,Top期刊)

    18. Wei Baoxing, Wei Yang*, Lin Yu, Wang Gaofei, Zhang Yirui. Compressive performance of bamboo scrimber and concrete-filled steel tube columns [J]. Engineering Structures, 2024, 300:117192.SCI/EI收录)

    19. Chen Si, Wei Yang, Mingmin Ding, Zhao Kang, Zheng Kaiqi. Combinatorial design and flexural behavior of laminated bamboo-timber composite beams [J]. Thin-Walled Structures, 2022, 181: 109993. SCI/EI收录)

    20. Huang Zhe, Wei Yang*, Zhang Yirui, Zhao Kang, Dong Zhiqiang. Flexural performance of FRP-SWSSC-steel composite beams: Experimental and analytical investigation [J]. Engineering Structures, 2024, 306: 117842. (SCI/EI收录Top期刊)

    21. Wang Gaofei, Wei Yang*, Yirui Zhang, Liu Lin, Yu Lin. Experimental behavior of concrete-filled double-skin tubular columns with outer galvanized corrugated steel tubes under axial compression  [J]. Engineering Structures, 2023,295: 116856.SCI/EI收录

    22. Tang Yu, Sun Zeyang, Wei Yang*, Zou Xingxing. Compressive behavior and design method of BFRP bars constrained with a BFRP spiral with different spacings in concrete members [J]. Engineering Structures, 2022,268: 114757SCI/EI收录)

    23. Huang Linjie, Zhou Zhen*, Wei Yang*, Xie Qin, SunXiaoyun. Seismic performance and resilience assessment of friction damped self-centering prestressed concrete frames [J]. Engineering Structures, 2022,263: 114346SCI/EI收录)

    24. Zhao Zhuang, Wei Yang*, Zou Xingxing, Chen Dongdong, Lin Yu*, Zheng Kaiqi. Unified stress–strain calculation model for UHPC-filled stainless-steel tubular columns with various cross-sectional shapes under axial compression [J]. Engineering Structures, 2024, 315: 118473.SCI/EI收录,Top期刊

    25. Li Hao, Wei Yang*, Yan Libo, Katherine E. Semple, Dai Chunping. Structural behavior of steel dowel strengthened cross-laminated bamboo and timber beams [J]. Composite Structures, 2023,318: 117111.

    26. Chen Jiawei, Abbas Nadeem, Sun Jinyu, Furuta Tomoki, Wei Yang*, Xiong Haibei*. An innovative energy-dissipation angle bracket for CLT structures: Experimental tests and numerical analysis [J]. Engineering Structures, 2024, 314: 118381.SCI/EI收录, Top期刊

    27. Wang Zhihao, Wei Yang*, Huang Zhe, Wang Gaofei, Ding Mingmin. Compressive performance of underwater concrete piers reinforced with prefabricated FRP shells [J]. Engineering Structures, 2024, 316: 118621.SCI/EI收录)

    28. Zhang Zicheng, Wei Yang*, Yi Jiyang, Wei Baoxing, Lin Yu, Huang Silu. Experiments and design of laminated bamboo and concrete-filled steel tube columns under axial compression [J]. Engineering Structures, 2024, 318: 118692.SCI/EI收录,Top期刊)

    29. Deng Jie, Wei Yang*, Chen Si, Huang Silu, Ding Mingmin, Li Guofen. Aging properties of bamboo scrimber after cyclic dry-wet exposure [J]. Construction and Building Materials, 2024, 453: 139043SCI/EI收录,Top期刊)

    30. Wang Gaofei, Wei Yang*, Zhu Binrong, Chen Si, Wang Jiaqing, Huang Silu. A novel biomass bamboo coarse aggregate concrete: Cyclic axial compression behaviour and modelling [J]. Soil Dynamics and Earthquake Engineering, 2025, 188: 109096SCI/EI收录)

    21. Huang Linjie*, Hu Jie, Zeng Bin, Wei Yang, Zhou Zhen. Investigation on the failure mechanism of friction-based self-centering timber beam-column joint considering bolt bearing effect: Experimental study and theoretical analyses [J]. Journal of Building Engineering, 2024, 98: 110974SCI/EI收录)

    32. Li Hao, Wei Yang*, Chen Jiawei, Du Hao, Zhang Yantai. Out-of-plane bending and shear behavior of cross-laminated bamboo and timber under four-point loading with variable spans [J]. Engineering Structures, 2025, 323: 119273.SCI/EI收录,Top期刊)

    33. Zhang Yirui, Wei Yang*, Miao Kunting, Li Bing. A novel seawater and sea sand concrete-filled FRP-carbon steel composite tube column: Cyclic axial compression behaviour and modelling [J]. Engineering Structures, 2022,252:113531SCI/EI收录)

    34. Gong Zihan, Wei Yang*, Liu Hui, Yi Jiyang, Chen Jiawei, Ding Mingmin. Flexural mechanical properties of H-shaped steel-bamboo scrimber composite beams [J]. Engineering Structures, 2024 ,319: 118812.SCI/EI收录,Top期刊

    35. Wei Yang*, Jiang Cheng, Wu Yufei. Confinement effectiveness of circular concrete-filled steel tubular columns under axial compression [J]. Journal of Constructional Steel Research, 2019,158(7): 15 - 27.SCI/EI收录)期刊Top cited paper

    36. Zhou Zhengyan, Wei Yang*, Wang Jiaqing, et al. Experimental study on the feasibility of using innovative biomass bamboo aggregate for cementitious materials[J]. Industrial Crops & Products, 2024, 217: 118864.SCI/EI收录)

    37. Wei Yang, Zhu Chao, Miao Kunting, Zheng Kaiqi, Tang Yu. Compressive performance of concrete-filled steel tube columns with in-built seawater and sea sand concrete-filled FRP tubes [J]. Construction and Building Materials, 2022,317: 125933. SCI/EI收录)

    38. Zhang Zicheng, Wei Yang*, Wang jiaqing, Yi Jiyang, Wang Gaofei. Effect of thermal modification on axial compression properties and hardness of laminated bamboo [J]. Construction and Building Materials, 2024, 411: 134747.SCI/EI收录,Top期刊)

    39. Wei Yang, Chen Si, Tang Shuaifeng, Peng Donglin, Zhao Kang. Mechanical response of timber beams strengthened with variable amounts of CFRP and bamboo scrimber layers [J]. ASCE-Journal of Composites for Construction, 2022, 26(4): 04022038. SCI/EI收录)

    40. Chen Si, Wei Yang*, Wang Gaofei, Zhao Kang, Ding Mingmin. Mechanical behavior of laminated bamboo-timber composite columns under axial compression [J]. Archivles of Civil and Mechanical Engineering, 2023,23(2):1-12. SCI/EI收录)

    41. Li Hao, Wei Yang*, Yan Libo, Katherine E. Semple, Dai Chunping. In-plane compressive behavior of short cross-laminated bamboo and timber [J]. Industrial Crops & Products, 2023, 200: 116807.SCI/EI收录)

    42. Chen Si, Wei Yang, Zhu Jie, Lin Yu, Du Hao. Experimental investigation of the shear performance of bamboo scrimber beams reinforced with bamboo pins [J]. Construction and Building Materials, 2023, 365:130044. SCI/EI收录

    43. Zhao Zhuang, Wei Yang*, Yue Pengfei, Li Sheng, Wang Gaofei. Axial compression and load-carrying performance of rectangular UHPC-filled stainless-steel tubular short columns [J]. Journal of Constructional Steel Research,2024,213:108397.SCI/EI收录)

    44. Hu Jihao, Wei Yang*, Yi Jiyang, Zhang Yirui, Zhao Kang. Axial compression performance of underwater columns reinforced with stainless steel tube-FRP grids [J]. Journal of Constructional Steel Research, 2024, 218: 108721. SCI/EI收录)

    45. Wang Gaofei, Wei Yang*, Wang Jiaqing, et al. Assessment of the properties of interface-modified bamboo aggregates for sustainable concrete construction[J]. Journal of Building Engineering, 2024,94: 110069.SCI/EI收录)

    46. Wang Gaofei, Wei Yang*, Ding Mingmin, et al. Physical and mechanical properties of sustainable bamboo coarse aggregate concrete[J]. Construction and Building Materials, 2024, 431: 136605.SCI/EI收录,Top期刊)

    47. Li Hao, Wei Yang*, Yan Libo, Katherine E. Semple, Dai Chunping. Characterization of local compressive behavior for bamboo scrimber loaded perpendicular to the grain [J]. Construction and Building Materials, 2023, 397:132421. SCI/EI收录

    48. Wei Yang*, Wang Zhiyuan, Chen Si, Zhao Kang, Zheng Kaiqi. Structural behavior of prefabricated bamboo-lightweight concrete composite beams with perforated steel plate [J]. Archivles of Civil and Mechanical Engineering, 2021,21(15):1-21. SCI/EI收录)

    49. Wei Yang, Nie Yuhan, Lin Yu, Shen Dongjie, Wang Gaofei. Axial stress strain behaviour of bamboo composite tube confined recycled aggregate concrete with different aggregate replacement ratios [J].Wood Material Science and Engineering, 2023, 7: 2229275.SCI/EI收录)

    50. Wei Yang, Tang Shuaifeng, Chen Si, Wang Qiudong, Wang Jiaqing. Mechanical behavior of foam-filled bamboo composite tubes under axial compression [J]. Polymers, 2022, 14, 2006. SCI/EI收录)

    51. Wu Fengyi, Wei Yang*, Lin Yu*, Wang Gaofei, Ding Minming. Confinement effectiveness of bamboo scrimber-filled steel tube columns under axial compression [J]. Journal of Building Engineering, 2023, 68 (2):106157.SCI/EI收录

    52. Wei Yang, Chen Si, Tang Shuaifeng, Zheng Kaiqi, Wang Jiaqing. Mechanical behavior of bamboo composite tubes under axial compression [J]. Construction and Building Materials, 2022, 339: 127681. SCI/EI收录)

    53. Nie Yuhan, Wei Yang*, Zhao Kang, Ding Mingmin, Huang Linjie. Compressive performance of bamboo sheet twining tube-confined recycled aggregate concrete columns [J]. Construction and Building Materials, 2022, 323 (3):126544. SCI/EI收录

    54. Cao Qi, Wei Yang*,Chen Si, Lin Yu*, Ding Mingmin. Experimental investigations on the load-bearing properties of dowel connection joints of bamboo scrimber [J].Structures, 2023, 50,1868-1878. (SCI/EI收录)

    55. Zhao Zhuang, Wei Yang*, Wang Gaofei, Miao Kunting, Zheng Kaiqi. Exploration on unified calculation of axial compressive load-carrying capacity of square and rectangular concrete-filled steel tubular columns [J]. Construction and Building Materials, 2023,398: 132546.SCI/EI收录)

    56. Zhao Zhuang, Wei Yang*, Wang Gaofei, Zhang Yirui, Lin Yu. Axial compression performance of square UHPC-filled stainless-steel tubular columns [J]. Construction and Building Materials, 2023,408: 133622.SCI/EI收录, Top期刊

    57. Wang Gaofei, Wei Yang*, Chen Si, Zhao Kang, Zhou Zhengyan. Bond performance between surface-modified bamboo bars and concrete under pull-out loading[J]. Journal of Building Engineering, 2023;79:107920.

    58. Shao Lingfeng, Wei Yang*, Wang Gaofei, Zhang Yirui, Lin Yu, Li Guofen. Axial compression performance of SWSSC-filled FRP-galvanized corrugated steel tubes [J]. Journal of Constructional Steel Research, 2024, 215: 108558. (SCI/EI收录)

    59. Zhang Yirui, Wei Yang*, Wang Gaofei, Zhao Zhuang, Huang Zh, Wei Xing. Hysteretic model of seawater and sea sand concrete-filled FRP- steel composite tube columns considering the confinement effectiveness [J]. Soil Dynamics and Earthquake Engineering, 2024, 177: 108363.SCI/EI收录)

    60. Zhang Yirui, Ren Chi, Yi Jiyang, WeiYang*, Li Guofen, Zhao Hu. Axial compression performance of concrete-filled steel tubular columns with damaged BFRP jackets [J]. Construction and Building Materials, 2024, 442: 137640.SCI/EI收录,Top期刊

    61. Zhang Zicheng, Wei Yang*, Yuan Zhiyi, Yi Jiyang, Chen Si, Chen Jiawei. Flexural modeling and failure criteria of thermal modified laminated bamboo beams [J]. Construction and Building Materials, 2024, 435: 136885.SCI/EI收录,Top期刊)

    62. Huang Zhe, Wei Yang*, Zhao Kang, Chen Dongdong, Lin Yu. CFRP-steel composite beams with seawater sea sand concrete cores subjected to bending [J]. Construction and Building Materials, 2024, 422: 135807. (SCI/EI收录Top期刊)

    63. Zhou Zhengyan, Wei Yang*, Wang Gaofei, Wang Jiaqing, Lin Yu, Zhu Binrong. Experimental study on the basic properties of new biomass bamboo aggregate concrete [J]. Journal of Building Engineering, 2024,86:108892.SCI/EI收录)

    64. Cheng Xunyu, Wei Yang*, Nie Yuhan, Wang Gaofei, Li Guofen. Compressive behavior of bamboo sheet twining tube-confined concrete columns [J]. Polymers, 2021, 13, 4124. SCI/EI收录)

    65. Deng Jie, Wei Yang*, Yi Jiyang, Chen Jiawei, Lin Yu*, Zhang Zicheng. Flexural properties of bamboo scrimber under different temperature conditions: Experimental study and mathematical model [J]. Construction and Building Materials, 2024, 445: 137958.SCI/EI收录,Top期刊

    66. Zhao Zhuang, Wei Yang*, Wang Gaofei, Lin Yu, Ding Mingmin. Evaluation of the load-carrying effect of rectangular concrete-filled steel tubular columns under axial compression based on the multilevel extension method [J]. Case Studies in Construction Materials, 2023, 18: e02041.SCI/EI收录)

    67. Jin Haopeng, Wei Yang*, Zhang Yirui, Huang Zhe, Liu Lin. Compressive performance of underwater concrete columns strengthened by nondispersive mortar and stainless steel tubes [J]. Case Studies in Construction Materials, 2023, 18: e02220.SCI/EI收录)

    68. Liu Fushou, Liu Aobo, Wang Libin, Wei Yang*. Accurate modeling and wave propagation analysis of cracked slender structural members by the spectral element method [J]. Structural Control and Health Monitoring, 2023, 1: 5569434.SCI/EI收录)

    69. Wang Qiudong, Wei Yang*, Fu Zhongqiu, Wang Yixun. Parametric study on fatigue failure modes of the rib deck weld under out of plane bending loading [J]. Iranian Journal of Science and Technology, 2023,023: s40996.

    70. Wang Qiudong, Fu Zhongqiu, Wei Yang*, Wang Yixun. Fatigue evaluation of the rib-deck weld in OSDs considering the effect of asphalt-steel interface bonding property [J]. Advances in Structural Engineering, 2023.

    71. Zhang Yirui, Wei Yang*, Zhao Kang, Ding Mingmin, Wang Libin. Analytical model of concrete-filled FRP-steel composite tube columns under cyclic axial compression [J]. Soil Dynamics and Earthquake Engineering, 2020 ,139(12):106414.SCI/EI收录

    72. Wei Yang, Xu Pengfei, Zhang Yirui, Wang Gaofei, Zheng Kaiqi. Compressive behaviour of FRP-steel wire mesh composite tubes filled with seawater and sea sand concrete [J]. Construction and Building Materials, 2022,314:125608. SCI/EI收录)

    73. Li Hongchun, Wei Yang*, Meng Ke, Zhao Longlong, Zhu Binrong, Wei Baoxing. Mechanical properties and stress-strain relationship of surface-treated bamboo fiber reinforced lightweight aggregate concrete [J]. Construction and Building Materials, 2024,424: 135914.SCI/EI收录Top期刊

    74. Liu Jie, Wei Yang*, Liu Zhongxiang, Cui Zhaoyan. Effects of seawater corrosion on compression-induced buckling performance of FRP-CFST columns [J]. Engineering Failure Analysis, 2024 ,162: 108441.SCI/EI收录,)

    75. Li Hao, Wei Yang*, Du Hao, Chen Jiawei, Zhang Yantai. Comparative experimental investigation on mechanical properties of bamboo scrimber and SPF [J]. Structures, 2024, 67: 106993. (SCI/EI收录)

    76. Liu Jie, Wei Yang*, Zhao Qi, Zhang Yirui, Zheng Kaiqi. Fatigue-induced fracture assessment for FRP-steel bonding joints after seawater exposure [J]. Structures,2024, 68: 107209.SCI/EI收录)

    77. Li Hao, Wei Yang*, Lin Yu, Chen Si, Chen Jiawei. Out-of-plane characteristics of cross-laminated bamboo and timber beams under variable span three-point loading [J]. Construction and Building Materials, 2024, 411: 134647.SCI/EI收录,Top期刊

    78. Wei Yang*, Miao Kunting, Zhang Xi, Zhou Yongfeng, Zheng Kaiqi. Modeling for complete stress-strain curve of circular concrete columns confined with steel spiral and FRP [J]. Journal of Building Engineering, 2021, 44(12):1103294. SCI/EI收录)

    79. Li Hongchun, Wei Yang*, Hu Yafeng, Zhao Longlong, Wang Gaofei, Zhang Yirui. Experimental and theoretical analysis of FRP-confined square lightweight aggregate concrete columns under axial compression [J]. Case Studies in Construction Materials, 2024,20: e02982. SCI/EI收录)

    80. Wei Yang*, Chen Si, Jiang Junfeng, Zhou Mengqian, Zhao Kang. Experimental investigation of bamboo-concrete composite beams with threaded reinforcement connections [J]. Journal of Sandwich Structures and Materials, 2021,24(1):601- 626. SCI/EI收录)

    81. Wang Gaofei, Wei Yang*, Miao Kunting, Zheng Kaiqi, Dong Fenghui. Axial compressive behavior of seawater sea-sand coral aggregate concrete-filled circular FRP-steel composite tube columns [J]. Construction and Building Materials, 2022, 315:125737. SCI/EI收录)

    82. Chen Si, Wei Yang*, Zhao Kang, Dong Fenghui, Huang Linjie. Experimental investigation on the flexural behavior of laminated bamboo-timber I-beams [J]. Journal of Building Engineering,2022;45:103651. SCI/EI收录)

    83. Nie Yuhan, Wei Yang*, Miao Kunting, Zhao Kang, Huang Linjie*. Experimental investigation of full-culm bamboo tubes strengthened by filled concrete and bamboo sheets under axial compression [J]. Journal of Building Engineering, 2022,45:103548. SCI/EI收录)

    84. Zhao Kunpeng, Wei Yang*, Chen Si, Lin Yu, Huang Linjie. Bending properties and design strength of reconstituted bamboo at different temperatures [J]. Polymer Composites, 2023, 1:1-14. SCI/EI收录

    85. Zhao Kunpeng, Wei Yang*, Chen Si, Hang Chen, Zhao Kang. Experimental investigation of the long-term behavior of reconstituted bamboo beams with various loading levels [J]. Journal of Building Engineering, 2021, 36(4):102107. SCI/EI收录)

    86. Wang Zhiyuan, Wei Yang*, Hu Yafeng, Chen Si, Zhao Kang. An investigation of the flexural performance of bamboo-concrete composite beams with precast light concrete slabs and dowel connectors [J]. Journal of Building Engineering, 2021, 41(9):102759. SCI/EI收录)

    87. Zhao Longlong, Wei Yang*, Zhang Guowei, Xi Fei. Short-term creep properties and creep model of wood-plastic composites [J]. Polymer Composites, 2022, 43:924–933. SCI/EI收录)

    88. Li Hao, Wang Libin*, Wei Yang*, Semple Katherine E., Dai Chunping. Out-of-plane bending behavior of cross-laminated timber members enhanced with fiber-reinforced polymers [J]. Journal of Building Engineering, 2023, 42: 105862. SCI/EI收录)

    89. Wang Gaofei, Wei Yang*, Zhu Binrong, et al. Stress-strain relationship of biomass concrete with bamboo as coarse aggregates under uniaxial compression[J]. Journal of Materials Research and Technology, 2024, 32: 1011-1027.SCI/EI收录)

    90. Wang Hao, Li Qifeng, Wei Yang*, Lin Yu, Ding Mingmin. Axial compressive behavior of bamboo sheet twining tube-confined concrete columns with an inner original bamboo tube [J]. Case Studies in Construction Materials, 2024, 20: e03327.SCI/EI收录)

    91. Deng Jie, Wei Yang*,Chen Si, Chen Jiawei, Zhao Kang, Li Guofen. Tensile and compressive properties of bamboo scrimber under different temperature conditions [J]. Polymer Composites, 2024, 1-14.SCI/EI收录)

    92. Wang Zhiyuan, Wei Yang *, Li Ning, Zhao Kang, Ding Mingmin. Flexural behavior of bamboo–concrete composite beams with perforated steel plate connections [J]. Journal of Wood Science, 2020, 66 (4): 1-20.SCI/EI收录ESI高被引论文

    93. Chen Si, Wei Yang*, Peng Donglin, Zhao Kang, Hu Yafeng. Experimental investigation of timber beams strengthened by bamboo scrimber with anchorage structure. Structures, 2021, 33(10):1-11. SCI/EI收录)

    94. Li Hao, Wei Yang*, Wang Libin. A general model for predicting the off-axis performance of fiber reinforced composite materials [J].Structures, 2021, 34(12): 2087-2097. SCI/EI收录)

    95. Nie Yuhan, Wei Yang*, Huang Linjie*, Liu Ying, Dong Fenghui. Influence of slenderness ratio and sectional geometry on the axial compression behavior of original bamboo columns. Journal of Wood Science, 2021, 67:20. SCI/EI收录)

    96. Chen Si, Wei Yang*, Hu Yafeng, Zhai Zhixin, Wang Libin. Behavior and strength of rectangular bamboo scrimber columns with shape and slenderness effects [J]. Materials Today Communications,2020 (4):101392

    97. Hu Yafeng, Wei Yang*, Chen Si, Yan Yadong, Zhang Weiyao. Experimental study on timber-lightweight concrete composite beams with ductile bolt connectors [J]. Materials, 2021,14: 2632. SCI/EI收录)

    98. Zhao Kunpeng, Wei Yang*, Chen Si, Zhao Kang, Ding Mingmin. Effect of temperature on compressive mechanical properties and strength design index of reconstituted bamboo [J]. Journal of Applied Polymer Science, 2022, 53553:1-15. SCI/EI收录

    99. Yirui Zhang, Wei Yang *, Haopeng Jin, Jiyang Yi, Lin Liu, Sheng Li. Behavior of underwater concrete columns confined by non-dispersive mortar and stainless steel tube subjected to core axial compression [J]. Structures, 2024, 68: 107193.SCI/EI收录)

    100. Don Xuan, Wei Yang*, Lin Yu, Xing Ze, Chen Si. Experimental study of partially encased bamboo scrimber columns under axial compression [J]. Wood Materials Science & Engineering, 2023, 19: 644-659.SCI/EI收录)

    101. Liu Hui, Wei Yang*, Huang Linjie, Chen Si, Lin, Yu. Shear behaviour of I-shaped steel with bamboo scrimber composite beams [J]. Archives of Civil and Mechanical Engineering, 2023, 24:3.SCI/EI收录)

    102. Li Hongchun, Wei Yang*, Zhang Yirui, Wang Gaofei, Huang Zhe. Compressive behavior of BFRP-confined ceramsite concrete: An experimental study and stress-strain model [J]. Reviews on Advanced Materials Science, 2023, 62: 20230153.SCI/EI收录)

    103. Wei Yang, Zhou Mengqian, Zhao Kunpeng, Zhao Kang, Li Guofen. Stress–strain relationship model of glulam bamboo under axial loading [J]. Advanced Composites Letters, 2020, 29:1-11.SCI/EI收录

    104. Wei Yang, Xu Yang, Wang Gaofei, Cheng Xunyu, Li Guofen. Influence of the cross-sectional shape and corner radius on the compressive behaviour of concrete columns confined by FRP and stirrups [J]. Polymers, 2022, 14: 341. SCI/EI收录)

    105. Wei Yang, Ji Xuewei, Duan Maojun, Li Guofen. Flexural performance of bamboo scrimber beams strengthened with fiber-reinforced polymer [J]. Construction and Building Materials, 2017, 142(7):66-82.SCI/EI收录

    106. Wei Yang, Wu Yufei. Compression behavior of concrete columns confined by high strength steel wire [J]. Construction and Building Materials, 2014, 54(3): 443-453. SCI/EI收录

    107. Wei Yang*, Cheng Xunyu, Wu Gang, Duan Maojun, Wang Libin. Experimental investigations of concrete-filled steel tubular columns confined with high strength steel wire [J]. Advances in Structural Engineering, 2019,22(13): 2771-2784. SCI/EI收录)

    108. Wei Yang, Wu Gang, Li Guofen. Performance of circular concrete-filled fiber-reinforced polymer-steel composite tube columns under axial compression [J]. Journal of Reinforced Plastics and Composites, 2014,33(20):1911-1928.SCI/EI收录

    109. Wei Yang, Zhou Mengqian, Chen Dongjian. Flexural behavior of glulam bamboo beams reinforced with near surface mounted steel bars [J]. Materials Research Innovations, 2015,19:98-103.SCI/EI收录

    110. Miao Kunting, Wei Yang*, Zhang Xi, Zheng Kaiqi, Dong Fenghui. Performance of circular concrete-filled FRP-grooved steel composite tube columns under axial compression [J]. Polymers, 2021, 13: 3638.SCI/EI收录)

    111. Cao Qi, Wei Yang*, Lin Yu, Ding Mingmin, Zheng Kaiqi*. Experimental investigations on the bearing properties of bamboo scrimber joints by a bolted bamboo-steel-bamboo connection [J]. Wood Material Science & Engineering, 2023, 18(5): 1790-1808.SCI/EI收录)

    112. Zhao Kang, Song Shijie, Wei Yang*, Li Guofen*, Guo Feng. Adhesion Properties of Recycled High-Viscosity Asphalt-Aggregate Interface under Dynamic Water Erosion [J]. Materials, 2023, 16: 6203.SCI/EI收录)

    113. Zhao Kunpeng, Wei Yang *, Chen Si, Zhao Kang, Ding Mingmin. Tensile properties and prediction model of recombinant bamboo at different temperatures [J]. Journal of Renewable Materials, 2023, 025711.SCI/EI收录

    114. Wei Yang*, Nie Yuhan, Lin Yu*, Shen Dongjie, Wang Gaofei. Axial stress-strain behaviour of bamboo composite tube-confined recycled aggregate concrete with different aggregate replacement ratios [J]. Wood Materials Science & Engineering, 2023, 19: 143-159.SCI/EI收录)

    115. Liu Jie, Wang Haobo, Wei Yang*, Han Daguang, Xiang Yunfei. Repairing Behaviors of Cracked Steel Plates Based on Bolted Fiber-Reinforced Polymer Plates [J]. Materials, 2023, 16: 6773.SCI/EI收录)

    116. Wang Zhiyuan, Wei Yang*, Jiang Junfeng, Zhao Kang, Zheng Kaiqi. Comparative study on mechanical behavior bamboo-concrete connections and wood-concrete connections [J]. Frontiers Materials, 2020,9(7):587580.SCI/EI收录

    117. Zhao Kang, Wei Yang*, Yan Shaocong, Chen Si, Dong Fenghui. Experimental and analytical investigations on flexural behavior of bamboo beams strengthened with steel bars [J]. Advances in Structural Engineering,  2021, 24(14):3338-3356. SCI/EI收录)

    118. Hu Yafeng, Wei Yang*, Zhao Longlong, Zhang Wenhua, Chen Si. Study on the strength and microcosmic characteristics of C50 high-performance concrete (HPC) containing manufactured sands [J].Buildings, 2022,12(10):1657. SCI/EI收录)

    119. Zheng Kaiqi, Ni Siwen, Zhang Yaohui, Gu Junxuan, Gao Mingming, Wei Yang*. Post-Cracking Shear Stiffness Model of Reinforced Concrete Beams [J]. Buildings,2023, 13 :2814.SCI/EI收录)

    120. Zhang Shichang, Miao Kunting, Wei Yang*, Xu Xiaoming, Luo Bin, Shi Weizhou. Experimental and theoretical study on concrete-filled steel tube columns strengthened by FRP/steel strip under axial compression [J]. International Journal of Concrete Structures and Materials,2023,17(1): 1-22. SCI/EI收录)

    121. Ding Mingmin, Shen Yuzhou, Wei Yang*, Luo Bin, Wang Lulu, Zhang Ningyuan. Preliminary design and experimental study of a steel-batten ribbed cable dome [J]. Symmetry,2021,13, 2136. SCI/EI收录)

    122. Xi Fei, Zhao Longlong, Wei Yang*, Yi Jiyang, Zhao Kang. Effect of temperature on the bending and creep properties of wood plastic composites [J]. Polymer Composite, 2023,1-11.

    123. Tang Yu, Guo Yuzhu, Chen Xudong, Wang Zhen, Wei Yang*. Acoustic emission characteristics of concrete cylinders reinforced with steel-fiber-reinforced composite bars under uniaxial compression [J]. Journal of Building Engineering, 2022, 58(8): 105074. SCI/EI收录)

    124. Li Hao, Wang Libin*, Wei Yang*, Wang Brad Jianhe, Jin Hui. Bending and shear performance of cross-laminated timber and glued-laminated timber beams: A comparative investigation [J]. Journal of Building Engineering, 2022, 45(1): 103477. SCI/EI收录)

    125. Huang Linjie, Zeng Bin, Zhou Zhen*, Zhang Wenqing, Wei Yang*, Li Chunyu. Seismic behavior and reliability of variable friction damped self-centering prestressed concrete frames considering bolt bearing. Soil dynamics and Earthquake Engineering. 2023, 164: 107643 (SCI/EI)

    126. Tang Yu, Lu Xiaowan, Wei Yang*, Hou Shitong. Experimental study on compressive behavior of concrete cylinders confined by a novel hybrid fiber-reinforced polymer spiral [J]. Polymers, 2022, 11, 4750. SCI/EI收录)

    127. Ding Mingming, Luo Bin, Guan Dongzhi, Wei Yang*, Ding Shuyao, Huang Lifan. Accumulative traction-hoisting construction technology of a semi-rigid steel batten cable dome [J].Structures, 2021,31(1), 159-171. SCI/EI收录)

    128. Dong Fenghui, Shi Feng, Wang Libin, Wei Yang*, Zheng Kaiqi. Probabilistic assessment approach of the aerostatic instability of long-span symmetry cable-stayed bridges. [J]. Symmetry, 2021, 13(12), 2413. SCI/EI收录)

    129. Chen Si, Wei Yang*, Wang Gaofei, Zhao Kang, Yang Bo. Experimental investigation on shear behavior of bamboo-concrete composite structure with perforated steel plate connection [J]. Journal of Building Engineering, 2023, 79: 107795.SCI/EI收录

    130. Zhao Longlong, Wei Yang*, Xi Fei*, He Yuxin, Wang Xufan. Experimental investigation on the flexural behavior of aluminum alloy-reinforced wood plastic composite hollow members [J]. Structures, 2023, 56: 104858.SCI/EI收录

    131. ………

    主要授权专利

    1. 发明专利:一种曲面形竹木构件的压制装置.ZL201911186158.1

    2. 发明专利:一种连续梁桥悬臂施工临时固结支座.ZL202010247851.1

    3. 发明专利:双层翼缘板箱型混凝土结构施工挂篮及其施工方法.ZL201911333214.X

    4. 发明专利:一种空心梁体预应力混合抗弯加固方法.ZL202010226885.2

    5. 发明专利:一种小截面空心梁抗剪加固方法.ZL202010226883.3

    6. 发明专利:一种空心板桥梁弯剪混合加固方法.ZL202010226884.8

    7. 发明专利:一种环形连续竹材箍筋制作方法.ZL201811194892.8

    8. 发明专利:一种可自由调节的低周反复荷载试验加载框架.ZL201911115971.X

    9. 发明专利:一种可升降反力墙低周反复荷载试验系统.ZL201911111425.9

    10. 发明专利:一种钢板内灌填充料组合加固混凝土桥梁结构与施工技术. ZL 201910382255.1

    11. 发明专利:一种预应力抗剪加固箱梁的方法,ZL 201810328411.1

    12. 发明专利:一种空心板梁抗剪承载力提升方法, ZL2017111334743

    13. 发明专利:一种钢筋网片加固桥梁水下墩柱结构及施工方法. ZL 201811007096.9

    14. 发明专利:一种加固桥梁水下结构FRP壳体环向搭接方法. ZL 201811007099.2

    15. 发明专利:一种加固桥梁水下结构的钢围堰安装方法. ZL 201910291648.1

    16. 发明专利:一种压型钢板-原竹-混凝土组合楼板及其制造方法. ZL 201810328769.4

    17. 发明专利:一种快速预应力加固桥梁梁体结构及方法. ZL 201811048003.7

    18. 发明专利:一种FRP管加固桥梁水下桥墩的方法. ZL 201811007181.5

    19. 发明专利:一种拆除连续箱梁桥中跨合拢段的变形控制方法. ZL 201910426469.4

    20. 发明专利:一种约束增强型橡胶支座, ZL 2018109699128

    21. 发明专利:一种竹木-不锈钢复合模板及其制造方法, ZL2018109775564

    22. 发明专利:一种芯体约束型橡胶支座, ZL201811048004.1

    23. 发明专利:一种竹木异向组合结构,201810329051.7

    24. 发明专利:一种薄壁钢管约束竹构件的制作方法,ZL201910365903.2

    25. 发明专利:一种竹材-钢复合管混凝土组合结构,ZL 201710045381.9

    26. 发明专利:一种增强桥梁横向联系的加固方法, ZL2017110619026

    27. 发明专利:一种加固木柱构件的方法, ZL2017110517304

    28. 发明专利:一种测试圆竹环向强度的方法,ZL 201811264292.4

    29. 发明专利:一种精准定位增强筋重组竹构件生产模具及制作方法, ZL 201810969911.3

    30. 发明专利:一种竹材-钢复合管混凝土组合结构,ZL 201710045381.9

    31. 发明专利:一种具有减压槽的纤维-钢复合管混凝土结构制作方法,ZL201710045385.7

    32. 发明专利:一种预测FRP-钢复合约束混凝土圆柱受压全曲线的方法,ZL 2017110750402

    33. 发明专利:一种复合加固木梁的方法, ZL 201610463533.2

    34. 发明专利:一种肋约束薄壁钢管混凝土结构ZL 2015106446665 

    35. 发明专利:一种约束型钢管混凝土构件,ZL 2015106446701

    36. 发明专利:一种装配式竹-加气混凝土组合结构及制作方法, ZL 2015106441708

    37. 发明专利:一种预应力增强重组竹生产模具, ZL 201510229089.3

    38. 发明专利:一种桥梁高空作业平台及其搭设方法, ZL 201410125407.7

    39. 发明专利:一种半装配式竹-混凝土组合桥梁,ZL201210413497.0

         40. 发明专利:复合管混凝土组合结构,ZL 201210413496.6

    41. 发明专利:一种内钢管约束钢筋混凝土空心桥墩, ZL 201110289987.X

    42. 发明专利:一种筒仓环向加固方法, ZL 201110289986.5

    43. 发明专利:一种FRP-橡胶-钢复合管混凝土结构, ZL201010282512.3

    44. 发明专利:纤维增强复合材料网格筋成型模具及成型方法, ZL 201410137480.6

    45. 发明专利:纤维增强复合材料网格筋加固水下结构的方法, ZL200910080051.9

    46. 发明专利:预制混凝土面板快速拼装加固水下结构的施工方法, ZL201410137461.3

    47. 发明专利:预应力钢丝绳抗弯加固混凝土结构及其加固方法, ZL200610012294.5

    48. 发明专利:一种可升降反力墙低周反复荷载试验系统.ZL201911111425.9

    49. 发明专利:一种原竹-聚苯乙烯泡沫颗粒复合墙板及其制造方法, ZL 201810329094.5

    50. 发明专利:一种测试受压试件纵向应变的方法. ZL201910378110.4

    51. 发明专利:一种新型自行车道钢桥面铺装层结构的铺装方法.ZL201911015034.7

    52. 发明专利:一种带肋加气混凝土企口楼板体系及装配方法. ZL 201811264291.X

    53. ………

     教材标准工法

    1. 魏洋,端茂军,李国芬主编,桥梁检测评定与加固技术,人民交通出版股份有限公司,2019.01,江苏省高等学校重点教材;高等学校交通运输与工程类专业规划教材,书号:ISBN 978-7-114-15184-2

    2. 魏洋,董峰辉,郑开,丁明珉编著.桥梁施工技术,人民交通出版股份有限公司2021.12,江苏省高等学校重点教材高等学校交通运输与工程类专业规划教材,书号:ISBN 978-7-114-17726-2

    3. 魏洋,董峰辉,丁明珉,郑开,张依睿,刘嵩编著.桥梁美学,人民交通出版股份有限公司2024.10,江苏省高等学校重点教材高等学校交通运输与工程类专业规划教材,书号:ISBN 978-7-114-19785-7

    4. 魏洋副主编,桥梁维修加固施工标准化操作手册,人民交通出版股份有限公司,2020.01,书号:ISBN 978-7-114-16245-9

    5. 预应力高强钢丝绳加固混凝土结构技术规程(JGJ/T 325-2014[S]. 中华人民共和国行业标准,中国建筑工业出版社,2014.

    6. 魏洋主编,发泡水泥浆轻质填料处治桥头搭板脱空技术.江苏省工程建设省级工法.


  • 获奖项目

    1. 国家科学技术进步奖二等奖(混凝土结构非接触式检测评估与高效加固修复关键技术)(排名3/10

    2. 江苏省科技进步奖一等奖(混凝土结构智能检测与主动高效加固关键技术及应用)(排名3/11

    3. 2024年江苏省最美科技工作者,江苏省科技厅、江苏省委宣传部

    4. 中国公路学会科技进步奖二等奖(在役桥梁结构性能提升改造关键技术与应用)(排名1/10

    5. 中国发明协会发明创业奖成果奖二等奖(桥梁服役工程性能高效提升技术创新与应用)(排名1/10

    6. 中国商业联合会科学技术奖一等奖(高耐久性FRP-钢复合管混凝土抗震桥墩的应用研究)(排名1/10

    7. 中国发明创业奖人物奖(排名1/1

    8. 国务院特殊津贴,国务院

    9. 国家百千万人才工程, 人社部

    10. 国家课程思政教学名师团队, 教育部(排名1/8

    11. 江苏省特聘教授,江苏省教育厅

    12. 江苏省优秀基层教学组织土木工程类专业教学中心,江苏省教育厅(负责人)

    13. 国家林草局科技创新团队(竹木建筑材料与结构低碳建造),国家林草局(负责人)

    14. 江苏省青蓝工程优秀教学团队,江苏省教育厅(负责人)

    15. 江苏省“六大人才高峰” 高层次人才, 江苏省人力资源和社会保障厅

    16. 南京林业大学“水杉名师”教学标兵培养对象

    17. 江苏省高校青蓝工程中青年学术带头人

    18. 江苏省五期“333”高层次人才工程(第3层次)

    19. 江苏省第四“333”高层次人才工程(第3层次)

    20. 江苏省高校青蓝工程优秀青年骨干教师培养对象

    21. 2023年《桥梁加固技术》入选教育部国家线上线下混合一流课程(负责人)

    22. 2021年《桥梁检测与加固》入选教育部国家课程思政示范课程(负责人)

    23. 2024《桥梁检测评估与加固技术案例》入选教育部学位与研究生教育发展中心“大国制造”主题案例 (负责人)

    24. 2023《大跨度桥梁施工技术》入选江苏省研究生课程思政示范课程(负责人)

    25. 2022年《桥梁美学》入选江苏省高校混合式精品通识课程(负责人)

    26. 2021年获江苏省教学成果二等奖(五元协同、特色融合,行业高校土木类一流人才培养模式构建与实践)(排名2/5

    27. 2013年获江苏省教学成果二等奖(土木交通类创新人才培养四维渐进式实践教学体系构建与应用)(排名3/7

    28. 2021获南京林业大学教学成果一等奖(工程教育导向,科教融合的林科特色土木类专业人才培养体系构建与实践)(排名1/12

    29. 2021获南京林业大学教学成果特等奖(基于工程教育认证的地方高校土木工程专业一流特色人才多元协同培养模式研究与实践)(排名2/17

    30. 2016《桥梁加固技术》课程建设与实践获2016南京林业大学教学成果二等奖(排名1/6

    31. 2012年基于挑战杯、专业竞赛的一流人才创新能力培养研究与实践获2012南京林业大学教学成果二等奖(排名1/12

    32. 2012土木交通类创新人才培养“四维渐进式”实践教学体系构建与应用获2012南京林业大学教学成果特等奖(排名3/10

    33. 2011年《大跨径桥梁设计与施工》课程建设获2011年南京林业大学教学成果奖三等奖(排名1/5

    34. 2012年《混凝土结构原理》多媒体课件获第二届全国高等学校土木工程专业多媒体教学课件竞赛一等奖(排名1/1

    35. 2012年土木交通类创新人才培养四维渐进式实践教学体系构建与应用获校教学成果特等奖(排名3/10

    36. 201911指导暑期社会实践团队获得团中央全国大学生暑期“三下乡”社会实践活动优秀团队

    37. 201912获江苏省大中专学生志愿者暑期文化科技卫生“三下乡”社会实践活动先进工作者

    38. 201512月获南京市第十一届自然科学优秀学术论文三等奖

    39. 2016年获南京林业大学优秀班主任(个人奖)

    40. 2014年获南京林业大学优秀本科教学质量奖一等奖(个人奖)

    41. 2018所带班级荣获全国活力团支部(1406061班)

    42. 2011年全国第十二届大学生挑战杯三等奖(指导教师)

    43. 2017年指导本科毕业论文获江苏省优秀毕业设计团队(指导教师)

    44. 2016年指导本科毕业论文获江苏省优秀本科论文等奖(指导教师)

    45. 2014年指导本科毕业论文获江苏省优秀毕业设计团队(指导教师)

    46. 2013年指导本科毕业论文获江苏省优秀本科论文一等奖(指导教师)


  • 联系方式

    1. 江苏省南京市龙蟠路159号南京林业大学土木工程学院,210037

    2. 电话:025-85427768

    3. E-mail:wy78@njfu.edu.cn