职称:副教授
学位:工学博士学位
1. 结构主动维护理论与方法研究.
2. 正交异性钢桥板全寿命性能评定及长寿命设计方法研究.
2. 智能材料(SMA、CFRP......)在钢桥疲劳裂缝修复及加固等领域的应用研究.
3. 钢结构抗火及火灾后性能评估和维修加固.
4. 复杂索结构人行桥设计与振动控制.
5. 大跨度钢桥施工关键技术研究.
6. 城市钢桥设计理论与方法研究.
7. 空间索结构设计与施工.
8. 基于“双碳”概念的风机叶片回收与再利用
纵向科研项目
1. 荷兰交通部资助项目, FRP-钢组合桥系统粘贴节点的力学性能及耐久性研究.
2. 广东省重点领域研发计划“现代工程技术”重点专项(2019B111106002), 重大跨海通道全寿命周期安全保障关键技术, 2019-2023.
3. 国家重点研发计划“绿色村镇技术创新”重点专项, 东南产村产镇综合示范项目, 2021-2024.
4. 国家自然科学基金(51408424), GFRP板材粘贴修复正交异性钢桥板疲劳裂缝的理论与试验研究.
5. 国家自然科学基金(52278207), 预应力SMA-CFRP组合粘贴修复钢桥板疲劳裂缝的机理研究.
7. 国家自然科学基金(51578404), BIM辅助设计制造的FRP自由曲面智能幕墙理论与设计方法研究.
8. 国家自然科学基金(51578406), 拉挤GFRP型材翼缘-腹板结合部受力机理及疲劳性能研究.
9. 中建八局科研项目(cscec-2020-z-1), 碳纤维复合材料在土木工程领域的应用研究.
10. CSIEZB180205727-多因素耦合作用下朔黄重载铁路桥梁结构安全监测与状态评估研究.
11. 上海市自然科学基金资助项目(21ZR1466100), SMA-CFRP组合贴片修复钢桥疲劳裂缝的理论及方法研究.
12. 山区桥梁与隧道工程国家重点实验室开发基金(CQSLBF-Y15-9) .
13. 公路桥梁诊治技术交通运输行业研发中心-开发基金, 预应力碳纤维布修复正交异性钢桥面板U肋对接焊缝处疲劳裂缝的理论和方法研究.
14. 桥梁结构健康与安全国家重点实验室开放研究基金项目(BHSKL21-11-GF),预应力SMA-CFRP加固钢桥疲劳裂纹理论及方法研究.
15. 同济大学青年优秀人才培养行动项目(2014KJ001).
16. 中央高校基本科研业务费专项资金-学科交叉类项目(0220219105).
17. 同济大学自主原创项目(22120210574), 碳纤维-形状记忆合金组合贴片修复钢桥疲劳裂缝的机理研究.
18. 同济大学自主原创项目(重点项目),基于金属增材打印的钢结构点蚀损伤修复.
18. 四川省交通厅科研项目(2019-Z2-15), 超大跨径钢桁梁桥施工关键技术.
19. 浙江省交通运输厅科研计划项目(2019017), 公轨两用大跨长联刚性悬索桥关键技术研究.
20. 杭州市建委“新型安全超高大跨度脚手架体系”科技项目.
21. 内蒙古交通科技项目(KZ0022020173497), 内蒙古地区钢混组合桥梁成套技术研究, 2018-2020.
22. 吉林省交通运输科技项目(KZ0022020174076), 中小跨径桥梁钢结构应用技术研究, 2018-2020.
23. 江西省重大研发专项(20165ABC28001), 中小装配化钢混组合结构桥梁的工业化建造技术研究, 2018-2021.
横向科研项目
1. 北京大兴机场屋顶钢结构施工方案计算复核;
2. 宁波三官堂大桥施工全过程计算分析;
3. 阜阳泉河大桥钢主梁施工方案优选及全过程计算;
4. 港珠澳大桥钢结构运维监测数据分析与养护方案决策;
5. 深中通道正交异性钢桥板疲劳性能与维修技术研究;
6. 辽宁省中小跨径钢-混组合梁桥示范工程科研项目;
7. 上海松浦大桥改造拓宽方案分析及试验研究;
8. 安徽中派河大桥正交异性钢桥板疲劳性能分析;
9. 安徽望东长江大桥PK组合梁疲劳性能研究;
10. 上海世博会世博轴钢节点有限元分析与优化设计;
11. 杭州北之江桥施工关键技术研究与施工方案比选;
12. 朔黄铁路超低高度预应力混凝土梁智能监测及加固工程;
13. 苏通大桥钢箱梁疲劳开裂机理研究与扩展特性分析;
14. 上海国际金融中心拉索幕墙张拉方案计算及实施;
15. 福州宝龙广场自由曲面GFRP结构设计、制造及施工一体化研究;
16. 北京亚投行采光顶张弦梁施工过程分析及预应力张拉实施;
17. 德州太阳能小镇膜结构拉索张拉分析及实施;
18. 沪杭甬高速公路杭州市区段改建工程钱塘江大桥设计及施工科研项目;
19. 泰安体育场钢结构施工过程计算及施工方案编制;
20. 安庆会展中心拉索预应力张拉计算及施工方案编制;
21. 深圳大疆总部天空之城景观桥施工过程分析及成型态验算;
22. 沱江大桥空间非对称曲线形独塔扭索面斜拉桥设计关键技术研究;
23. 杭州湾大桥海中平台观光塔铸钢节点受力分析及试验研究;
24. 崇启大桥主桥钢箱梁耐久性体系与预防性养护策略咨询
25. 上海浦东足球场屋盖结构拉索受力分析及试验研究;
26. 2021FIFA世俱杯上海体育场应急改造工程拉索试验;
27. 上海浦东干部学校屋顶钢结构加固改造工程。
学术论著:
1. Xu Jiang. Mechanical Performance and Durability of the Adhesively-bonded Joint between FRP Bridge Deck and Steel Girder. Ridderprint, Netherlands, 2013. (ISBN:978-90-5335-747-7)
2. Xu Jiang. Moisture-dependent performance of FRP-steel Adhesively-bonded Joints. LAP LAMBERT Academic Publishing, Germany, 2017.(ISBN:978-3-330-34957-5)
3. 姜旭、夏伟杰. 超大跨径钢桁梁桥施工关键技术.中国建筑工业出版社,2022. (ISBN:978-7-112-27178-8)
期刊论文:
1. Xu Jiang, Henk Kolstein, Frans S.K. Bijlaard. Moisture Diffusion in FRP Adhesively-Bonded Joints under Hot/Wet Environment. Advances in FRP Composites in Civil Engineering, 2010, 360-363. (SCI收录)
2. Xu Jiang, Henk Kolstein, Frans S.K. Bijlaard. Moisture Diffusion and Hygrothermal Aging in Pultruded Fibre Reinforced Polymer Composites of Bridge decks. Materials & Design, 2012, 37: 304-312. (SCI收录)
3. Xu Jiang, Henk Kolstein, Frans S.K. Bijlaard. Moisture diffusion in glass-fiber-reinforced polymer composite bridge under hot/wet environment. Composites Part B-Engineering, 2013, 45: 407-416. (SCI收录)
4. Xu Jiang, Henk Kolstein, Frans S.K. Bijlaard. Study on mechanical behaviors of FRP-to-steel adhesively-bonded joint under tensile loading. Composite Structures, 2013, 98: 192- 201. (SCI收录)
5. Xu Jiang, Henk Kolstein, Frans S.K. Bijlaard, Xuhong Qiang. Effects of hygrothermal aging on glass-fibre reinforced polymer laminates and adhesive of FRP composite bridge: Moisture diffusion characteristics. Composite Part A-Appled Science and Manufacturing, 2014,57:49-58. (SCI收录)
6. Xu Jiang, Henk Kolstein, Frans S.K. Bijlaard. Experimental and Numerical Study on Mechanical Behavior of an Adhesively-bonded joint of FRP-steel Composite Bridge under Shear Loading. Composite Structures, 2014, 108: 387-399. (SCI收录)
7. Xu Jiang, Henk Kolstein, Frans S.K. Bijlaard,Xuhong Qiang. Experimental investigation on mechanical behaviour of FRP-to-steel adhesively-bonded joint under combined loading-part 1:before hygrothermal aging. Composite Structures, 2015, 125: 672–686. (SCI收录)
8. Xu Jiang, Xuhong Qiang, Henk Kolstein, Frans S.K. Bijlaard. Experimental investigation on mechanical behaviour of FRP-to-steel adhesively-bonded joint under combined loading-part 2:after hygrothermal aging. Composite Structures, 2015, 125: 687–697. (SCI收录)
9. Xuhong Qiang, Frans S.K. Bijlaard, Henk Kolstein, Xu Jiang*. Behaviour of beam-to-column high strength steel endplate connections under fire conditions – Part 1: Experimental study. Engineering Structures, 2014, 64: 23-38. (SCI收录)
10. Xuhong Qiang, Frans S.K. Bijlaard, Henk Kolstein, Xu Jiang*. Behaviour of beam-to-column high strength steel endplate connections under fire conditions – Part 2: Numerical study. Engineering Structures, 2014, 64: 39-51. (SCI收录)
11. Xuhong Qiang, Xu Jiang*, Frans S.K. Bijlaard, Henk Kolstein. Post-fire behaviour of beam-to-column high strength steel endplate connections – Part 1: Experimental study. Journal of Constructional Steel Research, 2015, 108: 82-93. (SCI收录)
12. Xuhong Qiang, Xu Jiang*, Frans S.K. Bijlaard, Henk Kolstein. Post-fire behavior of beam-to-column high strength steel endplate connections – Part 2: Numerical study. Journal of Constructional Steel Research, 2015, 108: 94-102. (SCI收录)
13. Xuhong Qiang, Xu Jiang*, Frans S.K. Bijlaard, Henk Kolstein, Yongfeng Luo. Post-fire behaviour of high strength steel endplate connections - Part 1: Experimental study(Article)[J].Journal of Constructional Steel Research,2015,Vol.108: 82-93. (SCI收录)
14. Xuhong Qiang, Xu Jiang*, Frans S.K. Bijlaard, Henk Kolstein, Yongfeng Luo. Post-fire behaviour of high strength steel endplate connections - Part 2: Numerical study(Article)[J].Journal of Constructional Steel Research,2015,Vol.108: 94-102. (SCI收录)
15. Xu Jiang, Xuhong Qiang, Henk Kolstein, Frans S.K. Bijlaard. Analysis on Adhesively-Bonded Joints of FRP-steel Composite Bridge under Combined Loading: Arcan Test Study and Numerical Modeling. POLYMERS, 2016, 8(1):18. (SCI收录)
16. Xuhong Qiang, Xu Jiang*, Frans S.K. Bijlaard, Henk Kolstein. Mechanical properties and design recommendations of very high strength steel S960 in fire. ENGINEERING STRUCTURES, 2016,112:60-70. (SCI收录)
17. Xu Jiang, Jie Song, Xuhong Qiang, Henk Kolstein, Frans S.K. Bijlaard. Moisture Absorption/Desorption Effects on Flexural Property of Glass-Fiber-Reinforced Polyester Laminates: Three-Point Bending Test and Coupled Hygro-Mechanical Finite Element Analysis. Polymers 2016, 8(8), 290. (SCI收录)
18. Chong Wu, Yuan Yuan, Xu Jiang*. Fatigue Behavior Assessment Method of the Orthotropic Steel Deck for a Self-anchored Suspension Railway Bridge. Procedia Engineering, 2016, 161, 91–96. (EI收录)
19. Xuhong Qiang, Xu Jiang*, Frans S.K. Bijlaard, Henk Kolstein. Performance assessment on high strength steel endplate connections in fire. JOURNAL OF STRUCTURAL FIRE ENGINEERING, 2016, 7(2):168-78. (SCI收录)
20. Xu Jiang, Yuan Yuan, Chong Wu, Chengwei Luo. Fatigue Life Assessment of Orthotropic Steel Deck with UHPC Pavement. JOURNAL OF ENGINEERING, 2017, 8413607. (SCI收录)
21. Xu Jiang, Chengwei Luo, Xuhong Qiang, Henk Kolstein, Frans S.K. Bijlaard. Effects of Adhesive Connection on Composite Action between FRP Bridge Deck and Steel Girder, JOURNAL OF ENGINEERING, 2017, 6218949. (SCI收录)
22. Xu Jiang, Qingtian Su, Xu Han, Changyu Shao, Liang Chen. Experimental Study and Numerical Analysis on Mechanical Behavior of T-shape Stiffened Orthotropic Steel-concrete Composite Bridge Decks. International Journal of Steel Structures, 2017, 17(3):893-907. (SCI收录)
23. Yiou Shen, Bing Jiang, Yan Li, Xu Jiang. Low velocity impact response and energy absorption behavior on glass fibre reinforced epoxy composites. SCIENCE CHINA-TECHNOLOGICAL SCIENCES, 2017, 60(9): 1339-1346. (SCI收录)
24. Xuhong Qiang, Xu Jiang*, Frans S.K. Bijlaard, Henk Kolstein. Performance assessment on high strength steel endplate connections after fire. JOURNAL OF STRUCTURAL FIRE ENGINEERING, 2017, 8(2):202-214. (SCI收录)
25. Yuchao Zhao, Xu Jiang, Qilin Zhang, Qi Wang. Numerical Simulation of Thermal Performance of Glass-Fibre-Reinforced Polymer. IOP Conf. Series: Materials Science and Engineering, 2017, 245:022016.
26. Xuhong Qiang, Nianduo Wu, Yongfeng Luo, Xu Jiang*, Frans Bijlaard. Experimental and Theoretical Study on High Strength Steel Extended Endplate Connections After Fire,International Journal of Steel Structures, 2018, 18(2):609-634. (SCI收录)
27. Xuhong Qiang, Nianduo Wu, Yongfeng Luo, Xu Jiang*, Frans Bijlaard. Experimental and Numerical Analysis on Full High Strength Steel Extended Endplate Connections in Fire, International Journal of Steel Structures, 2018, 18(4): 1350-1362. (SCI收录)
28. Xu Jiang, Chengwei Luo, Xuhong Qiang, Qilin Zhang, Henk Kolstein, Frans S.K. Bijlaard. Coupled Hygro-Mechanical Finite Element Method on Determination of the Interlaminar Shear Modulus of Glass Fiber-Reinforced Polymer Laminates in Bridge Decks under Hygrothermal Aging Effects. Polymers, 2018, 10(8), 845. (SCI收录)
29. Chao Jiang, Chong Wu, Xu Jiang*. Experimental study on fatigue performance of corroded high-strength steel wires used in bridges, Construction and Building Materials, 2018, 187:681-690. (SCI收录)
30. Yuan Yuan, Chong Wu, Xu Jiang*. Experimental study on the fatigue behavior of the orthotropic steel deck rehabilitated by UHPC overlay, Journal of Constructional Steel Research, 2019, 157: 1-9. (SCI收录)
31. Qingtian SU, Changyuan DAI, Xu JIANG*, Bending performance of composite bridge deck with T-shaped ribs, Frontiers of Structural and Civil Engineering, 2019, 13(4): 990-997 (SCI收录).
32. Yuchao Zhao, Xu Jiang, Qilin Zhang, Xuhong Qiang, Simplified Material Solution for Orthotropic Symmetrical GFRP Laminates for Structural Facades, Advances in Civil Engineering. 2019. (SCI收录)
33. Xuhong Qiang,Yifei Shen,Xu Jiang, Frans S.K. Bijlaard. Theoretical study on initial stiffness of thin-walled steel T-stubs taking account of prying force. THIN-WALLED STRUCTURES,2020,155.(SCI收录)
34. Chao Jiang, Chong Wu, Cai, C. S. Xu Jiang,Wen Xiong. Corrosion fatigue analysis of stay cables under combined loads of random traffic and wind. ENGINEERING STRUCTURES, 2020, 206:1-10(SCI收录)
35. Xu Jiang, Zhilin Lv, Xuhong Qiang,Jiandong Zhang. Improvement of stop-hole method on fatigue-cracked steel plates by using high strength bolts and CFRP strips, Advances in Civil Engineering. 2021. (SCI收录)
36. Yuchao Zhao, Xu Jiang, Qilin Zhang, Xuhong Qiang. Design, fabrication, and construction of a freeform GFRP façade, JOURNAL OF ASIAN ARCHITECTURE AND BUILDING ENGINEERING, 2021,1-19. (SCI收录)
37. Sizhe Wang, Qingtian Su, Xu Jiang*, Elyas Ghafoori, Stability of steel columns with bolted strengthening under preload: Experimental study, JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH, 2022,190:1-21. (SCI收录)
38. Xinyi He, Qingtian Su, Xu Jiang*,Chong Wu. Experimental study on mechanical behavior of orthotropic steel deck with adhesively bonded rigid pavement. ADVANCES IN STRUCTURAL ENGINEERING, 2022, (SCI收录)
39. Xuhong Qiang, Yue Shu, Xu Jiang*. Experimental and numerical study on high-strength steel flange-welded web-bolted connections under fire conditions. JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH, 2022,published online. (SCI收录)
40. Hang Su, Xu Jiang, Qingtian Su, Joan R. Casas. Application of Partial Shear Connection in Steel-concrete Continuous Composite Girder. Structural Engineering International, 2022, published online. (SCI收录)
41. Zhilin LV, Xu Jiang, Xuhong Qiang, Jie Bai, Jie Liu. Strengthening feasibility of damaged steel plates repaired by self-stressing SMA-CFRP overlays. Structural Engineering International, 2022. (SCI收录)
42. Sizhe Wang, Qingtian Su, Xu Jiang*, Elyas Ghafoori, Stability of steel columns strengthened under preload: Numerical study with experimental validation. JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH, 2022. (SCI收录)
43. Kaidong Wu, Xuhong Qiang, Xing Zhe,Xu Jiang. Buckling in prestressed stayed beam-columns and intelligent evaluation.Engineering Structures,2022: 255 113902. (SCI收录)
44. Xuhong Qiang, Longlong Chen, Xu Jiang*. Achievements and Perspectives on Fe-Based Shape Memory Alloys for Rehabilitation of Reinforced Concrete Bridges: An Overview. MATERIALS, 2022:15(22). (SCI收录)
45. Xu Jiang,Kai Sun, Xuhong Qiang, Dan Li & Qiwei Zhang. XFEM-based Fatigue Crack Propagation Analysis on Key Welded Connections of Orthotropic Steel Bridge Deck.International Journal of Steel Structures,2022,12. (SCI收录)
46. Xuhong Qiang, Yue Shu, Xu Jiang*. Mechanical behaviour of high strength steel T-stubs at elevated temperatures: Experimental study. THIN-WALLED STRUCTURES,2023, 110314. (SCI收录,ESI高被引)
47. Xuhong Qiang, Longlong Chen, Xu Jiang*. Experimental and theoretical study on flexural behavior of steel-concrete composite beams strengthened by CFRP plates with unbonded retrofit systems. Composite Structures, 2023, 309:116763, (SCI收录)
48. Cheng Tan,Xu Jiang,Xuhong Qiang,Guowen Xu. Flexural strengthening of full-scale RC columns with Adhesively-bonded longitudinal CFRP plates: An experimental investigation, Journal of Building Engineering,2023,67: 105969,(SCI收录)
49. Sizhe Wang, Qingtian Su, Xu Jiang*, Elyas Ghafoori. Strengthening of steel beams with adhesively bonded memory-steel strip,THIN-WALLED STRUCTURES,2023, 110514.(SCI收录)
50. Kai Sun, Xu Jiang, Xuhong Qiang, Zhilin Lv, Chuanbin Fan.Equivalent Vehicle Model Based on Traffic Flow of Long-Span Steel Box Girder Bridge[J].Journal of Bridge Engineering,2023,Vol.28(9).(SCI收录)
51. Zhilin Lv, Xu Jiang, Xuhong Qiang, Mukai Zhou. Equivalent fatigue vehicle load model of steel box girder in cable-stayed bridges[J].Journal of Central South University, 2023,54(6), 2197–2208.(EI收录)
52. Xuhong Qiang, Yapeng Wu, Yuhan Wang, Xu Jiang*. Novel crack repair method of steel bridge diaphragm employing Fe-SMA[J]. Engineering Structures, 2023, 292: 116548.(SCI收录,ESI高被引)
53. Xu Jiang, Zhilin Lv, Xuhong Qiang, Shenyou Song. Fatigue performance improvement of U-rib butt-welded connections of steel bridge decks using externally bonded CFRP strips[J].Thin-Walled Structures,2023,Vol.191: 111017.(SCI收录)
54. Xuhong Qiang, Yue Shu, Xu Jiang*. Mechanical behaviour of high strength steel T-stubs at elevated temperatures: Experimental study[J].Thin-Walled Structures,2023,Vol.182.(SCI收录)
55. Xuhong Qiang, Yuhan Wang, Yapeng Wu, Xu Jiang*, Hao Dong. Experimental and numerical study on cracked steel bridge diaphragm reinforced with bonding Fe-SMA plate[J].Thin-Walled Structures,2023,Vol.191: 111075.(SCI收录)
56. Xuhong Qiang, Yapeng Wu, Xu Jiang*, Guowen Xu. Fatigue performance of cracked diaphragm cutouts in steel bridge reinforced employing CFRP/SMA[J].Journal of Constructional Steel Research,2023,Vol.211: 108136.(SCI收录)
57. Xuhong Qiang, Zhiyi Zhang, Xu Jiang*, Meng Wang. Study on initial stiffness of high strength steel T-stubs considering bending stiffness of bolts[J]. Journal of Building Engineering, 2023, 76: 107273.(EI收录)
58. Xuhong Qiang, Longlong Chen, Xu Jiang*, Hao Dong. Experimental study on anchorage and activation performance of Fe-SMA strips for structural reinforcements[J].Construction and Building Materials,2023,Vol.401: 132961.(SCI收录)
59. Xuhong Qiang, Yuhang Lu, Meng Wang, Xu Jiang*. Numerical and Theoretical Study on High-temperatures Mechanical Property of High-strength Steel T-stubs under Tension-shear Combined Loadings[J].Journal of Hunan University,2023,50(07):57-67.(EI收录)
60. Sizhe Wang, Lingzhen Li, Qingtian Su, Xu Jiang*, Elyas Ghafoori. Strengthening of steel beams with adhesively bonded memory-steel strips[J].Thin-Walled Structures,2023,Vol.189: 110901.(SCI收录)
61. Xu Jiang, Hao Qi, Xuhong Qiang, Bosen Zhao, Hao Dong. A Convolutional Neural Network-Based Corrosion Damage Determination Method for Localized Random Pitting Steel Columns[J].Applied Sciences,2023,Vol.13: 8883.(SCI收录)
62. Xuhong Qiang, Yapeng Wu, Yuhan Wang, Xu Jiang*. Research Progress and Applications of Fe-Mn-Si-Based Shape Memory Alloys on Reinforcing Steel and Concrete Brdiges[J].Applied Sciences,2023,Vol.13(3404): 3404.(SCI收录)
63. Xu Jiang, Zhilin Lv, Xuhong Qiang, Zhimin Xu. Fatigue performance of root-to-throat cracks repaired by bonding steel: experimental and numerical investigations[J].Journal of Constructional Steel Research,2024,Vol.212: 108296.(SCI收录)
64. Xu Jiang, Daqian Cao, Xuhong Qiang, Chunli Xu. Study on fatigue performance of steel bridge welded joints considering initial defects[J].Journal of Constructional Steel Research,2024,Vol.212: 108309.(SCI收录)
65. Xuhong Qiang, Xinran Duan, Xu Jiang*, Qiang Lu, Guangqing Zhou. Experimental study on mechanical properties of bolted joints between Fe-SMA and steel plates[J].Engineering Structures,2023,Vol.297: 116980.(SCI收录)
66. Xuhong Qiang, Yue Shu, Xu Jiang*. Nonlinear analysis on mechanical behaviour of high strength steel extended endplate connections and equivalent T-stubs in fire considering axial force[J].Case Studies in Construction Materials,2023,Vol.19: e02402.(SCI收录)
67. Xuhong Qiang, Yapeng Wu, Xu Jiang*, Guowen Xu. Fatigue performance of cracked diaphragm cutouts in steel bridge reinforced employing CFRP/SMA[J]. Journal of Constructional Steel Research, 2023, Vol. 211:108136.(SCI收录)
68. Xuhong Qiang, Kaihao Wang, Xu Jiang*, Yi Xiao, E Yibo. Effect of Fireproof Coatings on the Post-Fire Behavior of CFRP Composite Sheets[J].APPLIED SCIENCES-BASEL,2023,Vol.13(18).(SCI收录)
69. Xu Jiang, Cheng Tan, Xuhong Qiang, Song Han, Andi Shen. An innovative circular anchor system for CFRP plates: Experimental investigation and field application[J].Case Studies in Construction Materials,2023,Vol.19: e02678.(SCI收录)
70. Yue She, Xuhong Qiang, Xu Jiang*, Yi Xiao, Hao Dong. Long-term performance of single-lap joints: Review, challenges and prospects in civil engineering[J].ENGINEERING REPORTS, 2023.(SCI收录)
71. Longlong Chen, Xuhong Qiang, Xu Jiang*, et al. Numerical study of steel-concrete composite beams strengthened by CFRP plates with prestressed unbonded reinforcement system[J]. Engineering Failure Analysis, 2024, 157.(SCI收录)
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81. 姜旭,张其林,顾明剑,王洪军. 新型插盘式脚手架的试验和数值模型研究.土木工程学报,2008, 41(7):55-60. (EI收录)
82. 张其林,季俊,王洪军,姜旭,黄政华. 某观光塔铸钢节点试验研究与数值分析. 工业建筑,2009,S1.
83. 叶志燕,张其林,姜旭. 新型插盘式脚手架的计算理论与设计公式. 特种结构,2008,25(4):99-103.
84. 苏庆田,韩旭,姜旭, 邵长宇,陈亮,U形肋正交异性组合桥面板力学性能,哈尔滨工业大学学报,2016,(09):14~19.(EI收录)
85. 强旭红,武念铎,姜旭,罗永峰,超高强钢S960火灾后力学性能试验研究,同济大学学报(自然科学版),2016,(07):1076~1083. (EI收录)
86. 强旭红,吴钟艳,姜旭,罗永峰,高强结构钢S690高温力学性能,同济大学学报(自然科学版),2016,(05):685~694. (EI收录)
87. 苏庆田,杜霄,李晨翔,姜旭,钢与混凝土界面的基本物理参数测试,同济大学学报(自然科学版),2016,(04):499~506.(EI收录)
88. 苏庆田,薛智波, 李晨翔,姜旭,组合梁钢与混凝土界面连接效应的精细化计算, 同济大学学报, 2016, (12):1803-1809 (EI收录)
89. 强旭红, 武念铎,姜旭,罗永峰. 高强钢S460和S690火灾后力学性能试验, 哈尔滨工业大学学报,2017, (2): 130-138.(EI收录)
90. 强旭红,任楚超,刘冰,姜旭,宋杰. 火灾下高强钢端板连接节点力学性能有限元分析, 同济大学学报, 2017, (9):1273-1283 (EI收录)
91. 苏庆田,薛智波,韩旭,姜旭. 开口U形肋组合桥面板基本力学性能, 同济大学学报, 2017, (5): 651-657 . (EI收录)
92. 强旭红,任楚超,姜旭,黄震. 高强平齐式端板连接火灾下性能试验, 同济大学学报, 2017, (5): 673-683. (EI收录)
93. 袁远,吴冲,姜旭.基于线性累积损伤准则讨论钢桥面板顶板厚度, 武汉理工大学学报.2017,(09): 44-50. (中文核心期刊收录)
94. 吴冲,袁远,姜旭. 正交异性钢桥面板闭口加劲肋对接焊缝疲劳性能评价, 同济大学学报, 2018, (4): 436-443. (EI收录)
95. 王琦,姜旭,张其林,赵宇超. GFRP板材热性能分析,佳木斯大学学报, 2018, (2): 169-172.
96. 武念铎,罗永峰,强旭红, 刘晓,姜旭. 高强钢外伸式端板节点火灾性能试验与数值分析, 东南大学学报,2018,(1): 138-145. (EI收录)
97. 强旭红, 武念铎, 罗永峰, 姜旭. 高强钢梁柱外伸式端板节点常温与火灾后性能参数分析, 湖南大学学报,2018, (05): 62-75.(EI收录)
98. 强旭红, 武念铎, 罗永峰, 刘晓,姜旭. 高强钢外伸式端板节点性能试验与有限元分析, 湖南大学学报,2018, (07): 1-9. (EI收录)
99. 强旭红, 毋凯冬, 姜旭, 罗永峰. 高强钢S460高温力学性能研究与抗火设计建议, 湖南大学学报,2018, (11): 37-45. (EI收录)
100. 蒋超,吴冲,姜旭. 桥梁缆索高强钢丝均匀腐蚀及点蚀的规律, 同济大学学报, 2019, (1): 1615-1621. (EI收录)
101. 蒋超,吴冲,姜旭. 预腐蚀桥梁缆索高强钢丝疲劳试验, 同济大学学报, 2018, (12): 1622-1627+169. (EI收录)
102. 刘华超,徐薇,吕志林,姜旭.预制拼装挡水堰板结构有限元分析与优化设计.城市道桥与防洪,2019(07):184-186+204+23.
103. 魏鹏飞,吕志林,姜旭.三官堂超大跨径钢桁梁桥施工关键技术.施工技术,2019,48(11):6-11+15.(中文核心期刊收录)
104. 张其林,赵宇超,姜旭,强旭红.全玻璃纤维复材自由曲面外立面建筑的结构设计, 工业建筑.2019,49(09):178-183. (中文核心期刊收录)
105. 赵宇超,姜旭,张其林,强旭红,王琦.福州某商业广场GFRP自由曲面结构设计与施工, 施工技术.2019,48(14):121-125. (中文核心期刊收录)
106. 强旭红,石志伟,何旭,姜旭.高强钢平齐式端板连接节点火灾后性能数值研究, 同济大学学报(自然科学版).2019,47(04):482-490.(EI收录)
107. 强旭红,石志伟,赵国栋,姜旭,宋杰.高强钢平齐式端板连接节点火灾后力学性能试验研究,湖南大学学报(自然科学版).2019,46(01): 9-21.(EI收录)
108. 强旭红,张至毅,姜旭,刘晓,任楚超.火灾下超高强钢S960力学性能与抗火设计建议, 同济大学学报(自然科学版).2020,48(05):673-682.(EI收录)
109. 强旭红,陈欢,姜旭,席永慧,陈武龙.高强钢端板连接节点弯矩-转角曲线数学模型, 同济大学学报(自然科学版).2020,48(04):471-480.(EI收录)
110. 周泽,魏鹏飞,孙凯,姜旭.超大跨度连续钢桁梁桥主桁上弦杆对接焊缝残余应力研究,施工技术, 2020, 49(21):106-109(中文核心期刊收录)
111. 陈杰,陈方尧,张欢,姜旭.阜阳颍柳路泉河桥主桥钢箱梁安装施工分析,建筑钢结构进展.2020,22(05):133-140. (中文核心期刊收录)
112. 夏伟杰,魏鹏飞,陈方尧,姜旭.钢桁梁悬臂施工桥面系连接时机研究,施工技术.2020,49(06):67-70.(中文核心期刊收录)
113. 张冠华,李文全,姜旭.中小跨径双主梁形式钢板组合梁截面优化设计,科学技术与工程.2020,20(03): 1191-1196. (中文核心期刊收录)
114. 贺欣怡,苏庆田,姜旭,曾明辉,俞文生.环氧胶粘结刚性铺装的正交异性桥面板力学性能,哈尔滨工业大学学报.2020,52(09):25-31.(EI收录)
115. 向文凤,易岳林,姜旭.某PK组合箱梁结构腹板与横梁连接的疲劳性能分析,上海公路.2020,(02): 54-58+128.
116. 刘杰,吕志林,姜旭,魏鹏飞.宁波三官堂大桥主桥钢梁中跨合龙施工技术.中外公路,2020,40(06):170-173.(中文核心期刊收录)
117. 姜旭,吕志林,强旭红,罗程巍,张建东. 高强螺栓止裂法修复含裂纹钢板疲劳受力性能, 同济大学学报(自然科学版),2021,49(4):476-486.(EI收录)
118. 姜旭,周牧楷,强旭红,董浩.吸水/失水对GFRP层压板弯曲性能的影响. 哈尔滨工业大学学报,2021,53,10(149-155)。(EI收录)
119. 吕志林, 姜旭, 强旭红,孙凯,董浩.基于自应力SMA加固损伤钢结构的可行性研究,工业建筑,2022,52(06):174-182。(中文核心期刊收录)
120. 吕志林, 姜旭, 强旭红, 王潇健. 正交异性钢桥面板横隔板局部模型疲劳试验研究.结构工程师, 2021,37,6:163-171(中文核心期刊收录)
121. 姜旭,孙凯,强旭红,白洁.拉剪组合荷载下FRP-钢胶接连接力学性能研究,湖南大学学报,2022,(EI收录)
122. 强旭红,武亚鹏,姜旭. 铁基形状记忆合金力学性能和激活回复性能试验研究.同济大学学报 (已录用待刊)
123. 吕志林,姜旭,强旭红.钢桥板疲劳裂纹修复进展及SMA贴片法初探[J].科学技术与工程,已录用.(中文核心期刊)
124. 罗程巍,姜旭,强旭红,吕志林. 正交异性钢桥面板疲劳裂缝的维修加固方法综述,建筑结构,2022-12-15,(中文核心期刊)
125. 强旭红,舒悦,姜旭,董浩. 火灾下高强钢栓焊连接节点力学性能数值研究, 同济大学学报,2022:50(11), (EI收录)
126. 强旭红,舒悦,姜旭,王飞. 火灾下高强钢栓焊连接节点力学性能试验研究, 同济大学学报,2022:50(10), (EI收录)
127. 强旭红,卢强,姜旭,陈武龙. 常温与高温下高强钢T型连接受拉性能试验, 哈尔滨工业大学学报,2022: 2022-08-09, (EI收录)
128. 强旭红,陈龙龙,姜旭.张弦式预应力CFRP板加固钢-混凝土组合梁的抗弯试验, 复合材料学报. 2022,39(11), (EI收录)
129. 强旭红,赵波森,姜旭,徐晗.高性能钢梁的整体稳定性,同济大学学报(自然科学版). 2022,50(05),(EI收录)
130. 吕志林,姜旭,强旭红,罗程巍,张建东.高弹模CFRP粘贴法修复钢桥板疲劳裂纹.建筑钢结构进展,2022, 24(05). (中文核心期刊)
131. 李丹,张启伟,姜旭.钢桥面板纵肋-顶板焊缝细节疲劳裂纹的应力强度因子分析,城市道桥与防洪.2021(07).
132. 姜旭,吕志林,强旭红.粘贴角形钢板加固顶板-U肋焊喉疲劳裂纹试验, 同济大学学报(自然科学版).2023,网络首发.(EI收录)
133. 吕志林,姜旭,杨燕等.碳纤维加固钢桥面板U肋对接焊缝疲劳试验[J].同济大学学报(自然科学版),2023,51(08):1220-1230.(EI收录)
134. 强旭红,武亚鹏,姜旭.铁基形状记忆合金力学性能和激活回复性能研究[J].同济大学学报(自然科学版),2023,51(05):718-727.(EI收录)
135. 吕志林,姜旭,强旭红.钢桥板疲劳裂纹修复进展及合金贴片法研究[J].科学技术与工程,2023,23(06):2242-2251.(中文核心期刊)
136. 徐晗,徐山山,姜旭等.亚运会公望大桥重型机械上桥施工关键技术[J].中外公路,2022,42(01):138-141.(中文核心期刊)
137. 闵玉,刘杰,陈方尧,姜旭.三官堂大桥合龙段临时锁定温度影响研究[J].城市道桥与防洪,2022,(08):45-48+13.(中文核心期刊)
138. 罗程巍,钟振华,朱勇骏,姜旭.公轨两用大跨长联刚性悬索加劲钢桁梁桥施工技术[J].施工技术(中英文),2022,51(17):90-93.(中文核心期刊)
139. 吕志林,姜旭,强旭红等.基于自应力形状记忆合金加固损伤钢结构的可行性研究[J].工业建筑,2022,52(06):174-182.(中文核心期刊)
140. 强旭红,武亚鹏,姜旭,罗永峰. 铁基形状记忆合金加固钢梁和混凝土梁的加固机理与研究进展.结构工程师.2023,39(06).(中文核心期刊)
141. 吕志林,姜旭,强旭红,周牧楷. 钢箱梁斜拉桥等效疲劳车辆荷载模型分析, 中南大学学报(自然科学版).2023,54(06).(EI收录)
142. 强旭红,武亚鹏,姜旭,林志平. 基于CFRP布和SMA/CFRP组合贴片的桥梁横隔板疲劳裂纹修复方法, 交通运输工程学报,2024.(EI收录)
143. 强旭红,张至毅,张猛,姜旭.轮辐式索承网格屋盖钢结构单道胎架施工技术[J/OL].建筑钢结构进展.(中文核心期刊)
144. 强旭红,武亚鹏,姜旭,等. 基于CFRP布和SMA/CFRP组合贴片的桥梁横隔板疲劳裂纹修复方法[J]. 交通运输工程学报,2024,24(1): 171-184.(EI收录)
145. 姜旭, 吕志林, 强旭红, 等. 钢桥面板U肋嵌补段对接焊缝疲劳开裂特性[J]. 华南理工大学学报(自然科学版), 2024, 52(5): 92-100.(EI收录)
79. 吕志林, 姜旭, 强旭红, 王潇健. 正交异性钢桥面板横隔板局部模型疲劳试验研究.结构工程师, 2021,37,6:163-171(中文核心期刊收录)
80. 孙凯,姜旭,吴炜,强旭红.拉剪组合荷载下FRP-钢胶接连接力学性能研究,湖南大学学报,2022,(EI收录)
1. 戴昌源,苏庆田,贺欣怡,杜霄,田乐,姜旭,吴冲,曾明根. 一种含开孔板连接件的组合梁及施工方法, 发明专利, 专利号:CN105887655B,授权公告日:2018年10月26日.
2. 戴昌源,苏庆田,贺欣怡,杜霄,田乐,姜旭,吴冲,曾明根. 一种带靴形槽孔的开孔板连接件、钢梁及方法, 发明专利, 专利号:CN105887660B,授权公告日:2018年5月8日.
3. 姜旭,简相如,王若同,毛灵栋,刘吉林,王攀. 一种钢结构桥梁桥面板焊缝损伤的实时检测装置, 发明专利, 专利号:CN109580720A,授权公告日:2019年4月5日.
4. 姜旭,徐梓齐,王傲,何振邦,许博强,杨承志,郝晨宇. 一种适用于曲梁的梁段滑移装置, 发明专利, 专利号:CN109594476A,授权公告日:2020年6月2日.
5. 强旭红,姜旭,蒋垠茏,王潇健. 一种粘结节点多种应力状态等效加载试验装置, 实用专利, 专利号:CN205374266U,授权公告日:2016年7月6日.
6. 蒋垠茏,栾敬帅,姜旭. 一种带方形净水基层的透水路面结构, 实用专利, 专利号:CN204715150U,授权公告日:2015年10月21日.
7. 戴昌源,苏庆田,贺欣怡,杜霄,田乐,姜旭,吴冲,曾明根. 一种含开孔板连接件的组合梁, 实用专利, 专利号:CN205934689U,授权公告日:2017年2月8日.
8. 戴昌源,苏庆田,贺欣怡,杜霄,田乐,姜旭,吴冲,曾明根. 一种带靴形槽孔的开孔板连接件、钢梁及正交异性钢板, 实用专利, 专利号:CN206204761U,授权公告日:2017年5月31日.
9. 蒋垠茏,栾敬帅,姜旭. 一种带菱形净水基层的透水路面结构, 实用专利, 专利号:CN204715145U,授权公告日:2015年10月21日.
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