1. Kaiqi Zheng; Siwen Ni; Yaohui Zhang*; Junxuan Gu; Mingming Gao; Yang Wei*. Post-cracking Shear Stiffness Model of Reinforced Concrete Beams[J]. Buildings, 2023, 13,2814. https://doi.org/10.3390/buildings13112814
2. Kaiqi Zheng, Siyuan Zhou, Yaohui Zhang*, Yang Wei*, Jiaqing Wang, Yuxi Wang, Xiaochuan Qin. Simplified Evaluation of Shear Stiffness Degradation of Diagonally Cracked Reinforced Concrete Beams[J]. Materials, 2023, 16(13),4752. https://doi.org/10.3390/ma16134752
3. Zhe Huang, Kaiqi Zheng*, Yang Wei*, Lin Liu, Xiaotian Tang , Xiaochuan Qin. Compressive performance of SWSSC-filled CFRP-stainless steel composite tube columns [J]. Construction and Building Materials, 2023, 385: 131471
4. Zhe Huang, Kaiqi Zheng*, Yang Wei*, Gaofei Wang, Yirui Zhang. Axial compressive behavior of SWSSC-filled stainless steel tube columns with in-built CFRP or stainless steel tubes [J]. Journal of Building Engineering, 2023, 72: 106543
5. Qi Cao, Yang Wei*, Yu Lin, Mingmin Ding, Kaiqi Zheng*. Experimental investigations on the bearing properties of bamboo scrimber joints by a bolted bamboo-steel-bamboo connections. Wood Material Science & Engineering, 2023, 2193816.
6. Gaofei Wang; Yang Wei*; Cong Shen; Zhe Huang; Kaiqi Zheng. Compression performance of FRP-steel composite tube-confined ultrahigh-performance concrete (UHPC) columns[J]. Thin-Walled Structures, 2023, 192: 111152.
7. Chenxin Wang; Xingxing Zou*; Lesley H. Sneed; Feng Zhang; Kaiqi Zheng; Hao Xu; Guofen Li. Shear strength prediction of FRP-strengthened concrete beams using interpretable machine learning[J]. Construction and Building Materials, 2023, 407: 133553.
8. Zhuang Zhao; Yang Wei*; Gaofei Wang; Kunting Miao; Kaiqi Zheng. 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.
9. Kunting Miao, Yang Wei*, Fenghui Dong, Kaiqi Zheng, Jiaqing Wang. Experimental study on concrete-filled steel tube columns with inner distributed seawater and sea sand concrete-filled fiber-reinforced polymer tubes under axial compression [J]. Composite Structures, 2023, 320: 117181.
10. Kunting Miao, Yang Wei*, Shichang Zhang, Kaiqi Zheng, Mingmin Ding. Eccentric compression behavior of concrete-filled steel tube columns strengthened by CFRP/steel strip [J]. Engineering Structures, 2023, 286: 116191.
11. Si Chen, Yang Wei*, Mingmin Ding, Kang Zhao, Kaiqi Zheng. Combinatorial design and flexural behavior of laminated bamboo–timber composite beams. Thin-Walled Structures, 2022, 181:109993
12. Yang Wei*, Chao Zhu, Kunting Miao, Jile Chai, Kaiqi Zheng. Compressive behavior of rectangular concrete-filled fiber-reinforced polymer and steel composite tube columns with stress-release grooves[J]. Composite Structures, 2022, 281: 114984.
13. Yang Wei*, Si Chen, Shuaifeng Tang, Kaiqi Zheng, Jiaqing Wang. Mechanical behavior of bamboo composite tubes under axial compression[J]. Construction and Building Materials, 2022:339: 127681
14. Yang Wei*, Chao Zhu, Kunting Miao, Kaiqi Zheng, Yu Tang. 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.
15. Gaofei Wang, Yang Wei*, Kunting Miao, Kaiqi Zheng, Fenghui Dong. 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.
16. Yang Wei*, Pengfei Xu, Yirui Zhang, Gaofei Wang, Kaiqi Zheng. Compressive behaviour of FRP-steel wire mesh composite tubes filled with seawater and sea sand concrete[J]. Construction and Building Materials, 2022, 314: 125608.
17. Fenghui Dong*, Jie Gao, Aijin Hao, Yang Wei*, Xin Huang, Feng Shi, Kaiqi Zheng. A New Approach to Symmetry Reliability: Combination of Forward and Inverse Reliability Principle and Its Application to Frame Structures and Bamboo Bridges[J]. Symmetry, 2022, 14(2): 318.
18. Jianwei Liu, Han Feng, Yongxing Zhang*, Kaiqi Zheng. Performance Investigation of Geopolymer Grouting Material with Varied Mix Proportions. Sustainability, 2022, 14(20), 13046
19. Yang Wei*, Jiawen Bai, Yirui Zhang, Kunting Miao, Kaiqi Zheng. Compressive performance of high-strength seawater and sea sand concrete-filled circular FRP-steel composite tube columns[J]. Engineering Structures, 2021, 240: 112357.
20. Yang Wei*, Zhiyuan Wang, Si Chen, Kang Zhao, Kaiqi Zheng. Structural behavior of prefabricated bamboo-lightweight concrete composite beams with perforated steel plate connectors[J]. Archives of Civil and Mechanical Engineering, 2021, 21: 15.
23. Fenghui Dong*, Feng Shi, Libin Wang, Yang Wei, Kaiqi Zheng. Probabilistic Assessment Approach of the Aerostatic Instability of Long-Span Symmetry Cable-Stayed Bridges[J]. Symmetry, 2021, 13(12): 2413.
24. Zhiyuan Wang, Yang Wei*, Junfeng Jiang, Kang Zhao, Kaiqi Zheng. Comparative study on mechanical behavior bamboo-concrete connections and wood-concrete connections [J]. Frontiers in Materials, 2020, 7: 587580.
25. Kaiqi Zheng*, Michael Kuwornu, Zhao Liu. Shear Test of Variable Depth RC Beams with Inflection Point. ACEM2018, MATEC Web of Conferences 275, 02003 (2019) DOI: 10.1051/matecconf/201927502003
26. Kaiqi. Zheng*, Shaoping. Meng. Discussion of simplified Shear Design of Slender Reinforced Concrete Beams with Stirrups by Zhi-Qi He, Zhao Liu, and Zhongguo John Ma. Journal of Structural Engineering, 2016, 142(11): 07016008.
27. 郑开启, 周思源, 魏洋, 白学洋, 王天杰. 双不锈钢管约束海水海砂混凝土柱轴压试验及承载力计算模型[J]. 沈阳建筑大学学报(自然科学版), 2024, 40(3).
28. 郑开启*, 刘钊. 基于受压区分区破坏机制的有腹筋RC梁受剪承载力公式[J]. 中国公路学报, 2020, 33(1): 79-86,110.
29. 郑开启, 刘钊*, 秦顺全, 周满. 有腹筋混凝土梁的剪切刚度分析模型. 力学学报, 2016, 48(5): 1136-1144.
30. 郑开启, 刘钊*, 史国刚, 张宇峰, 孟少平. 带斜裂缝变截面混凝土梁剪切变形试验研究[J]. 土木工程学报, 2015, S1: 1-7.
31. 郑开启, 刘钊*, 张宇峰, 秦顺全. 腹板斜向开裂混凝土梁桥的剪切刚度评估方法[J]. 桥梁建设, 2015, 04: 46-51.
32. 郑开启, 刘钊*, 孟少平, 秦顺全. 一种无腹筋混凝土梁受剪承载力计算的新方法. 东南大学学报(自然科学版), 2017,47(02): 362-368
33. 郑开启, 卜红旗, 刘钊, 惠卓, 吕志涛*. 体内-体外混合配束节段预制拼装箱梁足尺模型试验研究[J]. 中国工程科学. 2013, 15(8): 89-94.
34. 齐念*, 郑开启. 基于离散元的杆件断裂全过程数值模拟[J]. 计算力学学报, 2022, 39(06): 838-844.
35. 缪坤廷, 魏洋*, 王高飞, 董峰辉, 郑开启. 内置碳纤维增强复材管的双管海水海沙混凝土柱轴压性能[J]. 工业建筑, 2022, 52(09): 1-9.
36. 孙小云, 曾滨, 许庆, 黄林杰*, 魏洋, 周臻, 谢钦, 郑开启. 地震动持时对自复位预应力混凝土框架动力响应的影响 [J]. 工业建筑, 2023, 53 (03): 35-40.
37. 缪坤廷, 魏洋*, 朱超, 丁明珉, 郑开启. 钢管混凝土-FRP管海水海砂混凝土组合柱轴压模型[J]. 复合材料学报, 2022, 39(11): 5403-5414.
38. 王高飞, 魏洋*, 缪坤廷, 董峰辉, 郑开启. 圆形CFRP-钢复合管海水海砂珊瑚混凝土柱轴压性能试验研究[J]. 复合材料学报, 2022, 39(08): 3982-3993.
39. 柏佳文, 魏洋*, 张依睿, 缪坤廷, 郑开启. 新型碳纤维增强复合材料-钢复合管海水海砂混凝土圆柱轴压试验[J]. 复合材料学报, 2021, 38(09): 3076-3085.
40. 刘钊, 郑开启*, 惠卓, 贺志启. 节段预制拼装箱梁桥的混合配束设计研究. 二十二届全国桥梁学术会议, 广州, 中国, 2016.05.09-2016.05.11
41. 郑开启, 刘钊*, 秦顺全, 孟少平. 预应力混凝土箱梁桥腹板斜裂缝成因及相关问题研究综述. 中国公路学会桥梁和结构工程分会2015年全国桥梁学术会议, 贵阳, 中国,2015.10.12-2015.10.14
42. 陈扬, 钟瑶, 郑开启, 沈斌, 孟少平*. 预制拼装箱梁现浇横隔梁水化热分析与控制研究[J]. 中国工程科学. 2013, 15(8): 99-103.
43. 刘钊*, 郑开启, 赵桉. 腹板斜裂缝对混凝土桥梁剪切变形及承载力影响的试验研究[C]. 中国公路学会桥梁和结构工程分会2013年全国桥梁学术会议论文集. 2013: 758-766.
44. 于琦, 孟少平*, 吴京, 郑开启. 预应力混凝土结构组合式非线性分析模型[J]. 工程力学, 2011, 11: 130-137.
45. 郑开启, 钟瑶*, 孟少平, 王景全. 体内、体外混合配束设计若干问题探讨[C]. 中国公路学会桥梁和结构工程分会2010年全国桥梁学术会议论文集. 2010: 705-708.
46. 聂永福,朱小康,王建超,郑开启, 惠卓, 刘钊*. 节段预制拼装桥梁的模型试验研究综述[C]. //中国公路学会桥梁和结构工程分会2010年全国桥梁学术会议论文集. 2010:684-689.
47. 郑开启, 孟少平*, 陈佳佳, 王景全,潘钻峰. 混合配束节段预制拼装箱梁的体内束配束比例下限研究[C]. 第六届全国预应力结构理论与工程应用学术会议论文集. 2010: 107-111.
48. 陈佳佳,孟少平*,郑开启,蔡小宁. 基于OpenSees的新型框架节点抗震性能分析[C]. //第六届全国预应力结构理论与工程应用学术会议论文集. 2010:123-127.
49. 郑开启, 孟少平*, 冯英洁. 六圭河特大桥动力特性分析[C]. 第七届全国土木工程研究生学术论坛论文集. 2009: 140.
50. 赵康, 魏洋, 丁明珉, 董峰辉, 郑开启. 林区桥梁墩柱加固虚拟仿真实验教学探索与实践[J]. 实验室研究与探索, 2024, 43 (03): 84-89.
51. 丁明珉,魏洋,王立彬,郑开启,董峰辉. 课程思政视域下线上线下双向融合的混合式教学模式研究——以桥梁施工技术为例[J]. 科教导刊(电子版),2023(14):136-138.
52. 张延泰, 郑开启, 王立彬, 黄林杰.《工程结构抗震与防灾》课程思政建设——以汶川地震课程思政资源的开发与利用为例[J]. 高等教育前沿, 2022, 05(05): 125-127.
53. 董峰辉, 郑开启, 刘福寿. 《桥梁工程》课程思政教学改革实践与探索. 教学与研究, 2021, 20.
54. 郑开启, 李国芬. 新工科教育背景下高校青年教师教学能力提升对策研究[J]. 科教文汇(中旬刊), 2019(08): 71-72.
