姓名:田伟辰
国籍:中国
性别:男
毕业院校:哈尔滨工业大学
职称:研究员
学位:博士
电子邮件:tianweichen@ncu.edu.cn
所在单位:工程建设学院
办公地址:建工楼515
田伟辰,辽宁丹东人,2023年4月博士毕业于哈尔滨工业大学土木工程学院,后于香港理工大学CEE系做博后,于2024年7月入职南昌大学工程建设学院。主要研究方向为先进土木工程材料的结构与功能一体化设计,以及人工智能驱动材料开发与工程应用优化。共计发表40余篇SCI文章,累计影响因子309.6,共计被引600余次,h因子14,其中第一作者/通信作者发表21篇SCI文章,11篇中科院一区TOP,5篇中科院二区TOP,2篇美国ASCE会刊,累计影响因子146.2。参编专著2章,获授权发明专利4项,实审中1项,登记软件著作权3项。担任SCI期刊Materials、Sustainability客座编辑,南昌大学学报(工科版)学术主编,清华大学出版社Journal of Intelligent Construction青年编委,中南大学学报(自然科学版)青年编委,河南理工大学学报(自然科学版)青年编委。同时担任行业顶刊Cement and Concrete Composites, Construction and Building Materials, Journal of Building Engineering, Journal of Materials in Civil Engineering等10余个期刊独立审稿人。
[1] 201909-202302 哈尔滨工业大学 博士研究生
[2] 201709-201907 哈尔滨工业大学 硕士研究生
[3] 201309-201707 沈阳建筑大学 大学本科
[1] 202407-* 南昌大学 南昌大学
[2] 202304-202407 香港理工大学 香港理工大学
1. Tian W(田伟辰), Liu Y*, Wang W. Enhanced ohmic heating and chloride adsorption efficiency of conductive seawater cementitious composite: Effect of non-conductive nano-silica. Composites Part B, 2022, 236: 109854.(唯一第一作者,中科院大类一区SCI,IF=12.7)
2. Tian W(田伟辰), Liu Y*, Wang W. Multi-structural evolution of conductive reactive powder concrete manufactured by enhanced ohmic heating curing. Cement and Concrete Composites, 2021, 123: 104199.(唯一第一作者,中科院大类一区SCI,IF=10.8)
3. Tian W(田伟辰), Liu Y*, Qi B, Wang W. Enhanced effect of carbon nanofibers on heating efficiency of conductive cementitious composites under ohmic heating curing. Cement and Concrete Composites, 2021, 117: 103904.(唯一第一作者,中科院大类一区SCI,IF=10.8)
4. Tian W(田伟辰), Liu Y*, Wang M, Wang W. Performance and economic analyses of low-energy ohmic heating cured sustainable reactive powder concrete with dolomite powder as fine aggregates. Journal of Cleaner Production, 2021, 329: 129692.(唯一第一作者,中科院大类一区SCI,IF=9.7)
5. Tian W(田伟辰), Wang M, Liu Y*, Wang W. Ohmic heating curing of high content fly ash blended cement-based composites towards sustainable green construction materials used in severe cold region. Journal of Cleaner Production, 2020, 276: 123300.(唯一第一作者,中科院大类一区SCI,IF=9.7)
6. Tian W(田伟辰), Qiu R, Tang Z, Zhong Y, Liu X, Wang X, Zou F, Li R*. XGBoost assisted in identifying the structural damage behavior of fiber-reinforced concrete during the soundless demolition process through electrical resistance changes. Construction and Building Materials, 2025, 478: 141376. (唯一第一作者,中科院大类一区SCI,IF=7.4)
7. Tian W*(田伟辰), Zhang Z, Qiu R, Lu J**, Li R, Liu Y, Wang W. Electrical performance of conductive cementitious composites: Enhanced conduction by carbon fibers towards self-sensing function. Construction and Building Materials, 2024, 421: 135771.(唯一第一作者,中科院大类一区SCI,IF=7.4)
8. Tian W#(田伟辰), Qi B#, Liu Y*, Liu K, Wang W. Early frost resistance and permeability properties of carbon fiber/cement-based composite cured by ohmic heating under ultra-low temperature. Construction and Building Materials, 2021, 282: 122729.(第一作者,中科院大类一区SCI,IF=7.4)
9. Tian W(田伟辰), Liu X, Wang X, Zou F, Xu Y, Liu Y*, Lu J**, Xu L, Wang W. Improving electrical-thermal-mechanical functional performance of intelligent conductive cementitious composites: Through fiber orientation by magnetic field. Journal of Building Engineering, 2025, 104: 112374.(唯一第一作者,中科院大类二区TOP,IF=6.7)
10. Tian W(田伟辰), Liu Y*, Wang M, Liu H, Yu K, Xia Y, Wang W, Li R**. Improved chloride binding capacity in sustainable metakaolin blended seawater cement mortar: Effect of external alternative electric field. Journal of Building Engineering, 2024, 981: 111454.(唯一第一作者,中科院大类二区TOP,IF=6.7)
11. Tian W(田伟辰), Li R, Zhang Z, Wang M, Liu Y*, Lu J**, Jia Y, Wang W. Curing parameters development and long-term performance of ohmic heating cured conductive cementitious composites: A comparative study on fiber fraction. Journal of Building Engineering, 2024, 91: 109566. (唯一第一作者,中科院大类二区TOP,IF=6.7)
12. Tian W(田伟辰), Liu Y*, Liu H, Wang W. Performance evolution and chloride adsorption efficiency of seawater mixed cement-based materials subjected to ohmic heating curing under severely-low temperature. Journal of Materials in Civil Engineering, 2023, 35: 04023459.(唯一第一作者,ASCE学会会刊SCI,IF=3.1)
13. Zhang L, Ouyang, M, Tian W*(田伟辰), Liu Y, Fu Q, Wang W. Internal structural evolution of conductive cementitious composites subjected to multi-step ohmic heating curing strategy under severely cold temperature. Journal of Building Engineering, 2023, 80: 108101.(唯一通信作者,中科院大类二区TOP,IF=6.7)
14. Li R, Tian W*(田伟辰), Qiu R, Tang Z, Zhang X, Wang W. Damage characteristic of concrete treated by environmental-friendly soundless chemical demolition method: Hole design parameters regulated demolition efficiency. Structures, 2024, 70: 107683.(唯一通信作者,中科院大类二区TOP,IF=3.9)
15. Wang X, Guo G, Chen T, Tian W*(田伟辰), Zou F. Valorization of zeolite powder into cement-based materials: Multi-step improvement effect of diethanol-isopropanolamine and triethanolamine. Journal of Materials in Civil Engineering, 2025, xxxxx. (唯一通信作者,中科院大类三区,IF=3.1)
16. Liu Y#, Tian W#(田伟辰), Ma G*. Electric activation curing behaviour of reinforced concrete beam under severely-cold environment: Breakthrough of rapid concrete manufacturing at cold region. Construction and Building Materials, 2023, 384: 131443. 共同第一作者,中科院大类一区SCI,IF=7.4)
17. Liu Y#, Tian W#(田伟辰), Jia M, Wang L*, Ma G**. Effect of stirrup arrangements on electrical and heating performances of electric activation manufactured concrete beam: Simulation and experimental investigation. Journal of Building Engineering, 2023, 78: 107604.(共同第一作者,中科院大类二区TOP,IF=6.7)
18. Li R, Zheng W*, Hou M, Zhang J, Li G, Wang W, Tian W*(田伟辰). Synergistical influence of internal expansion and external constraint on demolition efficiency of soundless chemical demolition method for concrete structures. Construction and Building Materials, 2023, 409: 134194.(共同通信作者,中科院大类一区SCI,IF=7.4)
19. Li R, Zheng W*, Xia Z, Tian W*(田伟辰). Destruction extent of reinforced concrete shear walls demolished by soundless chemical demolition technology: Improvement by structural and parameter design. Construction and Building Materials, 2024, 440: 137295.(共同通信作者,中科院大类一区SCI,IF=7.4)
20. Qi B, Zhou Z, Tian W(田伟辰)*, Ouyang M, Wang X, Shi Q, Wang Y, Sun Y, Wang W. Experimental and Numerical Investigation of Temperature Development of Ohmic Heating Cured Nonmass Concrete under Subzero Temperature. Advances in Civil Engineering, 2021, . (通信作者,SCI,IF=1.5)
21. Zhang L, Chen S, Tian W(田伟辰)*, Tang Y, Fu Q, Li R, Wang W. Electric Resistance and Curing Temperature Development of Carbon Fiber-Reinforced Conductive Concrete: A Comparative Study. Materials, 2024, 17(16), 4045. (通信作者,IF=3)