Jing LUO
Birth Date: December 1994, Female
Assistant Professor
School of Civil Engineering
Shanghai Normal University
Email: luojing94@shnu.edu.cn
EDUCATION
Sep. 1, 2016 - Jun. 3, 2022, PhD candidate of College of Civil Engineering, Tongji University, Shanghai, PR China.
Sep. 1, 2012 - Sep. 1, 2016, Undergraduate student of College of Civil Engineering, Tongji University, Shanghai, PR China.
WORK EXPERIENCES
Aug. 21, 2022, Assistant Professor, College of Civil Engineering, Shanghai Normal University.
Awards
| Time | Award Name | Issuing Unit |
|---|---|---|
| May 2023 | Shanghai Science and Technology Award | Shanghai Municipal People’s Government |
| May 2023 | Youth Talents of Science and Technology in Shanghai Sailing Plan | Shanghai Municipal Commission of Science and Technology |
| Jun. 2022 | Shanghai Outstanding Graduate Award | Shanghai Municipal Education Commission |
| Dec. 2021 | Tongji Pacemaker to Merit Student | Tongji University |
| Feb. 2021 | Tongji Outstanding Student Award | Tongji University |
| Dec. 2020 | Tongji Outstanding PhD Candidate Scholarship | Tongji University |
| Nov. 2020 | The First Prize in 2020 CECS Award | China Association for Engineering Construction Standardization |
| Aug. 2010 | China Science Council Scholarship | China Higher Education Association |
| Nov. 2016 | The Second Prize in 2016 university timber structures design competition | National Steering Committee of Civil Engineering - Timber Structure Engineering Education in China |
| Jun. 2016 | Shanghai Outstanding Graduate Award | Shanghai Municipal Education Commission |
| Mar. 2015 | Tongji Outstanding Student Award | Tongji University |
| Nov. 2015 | China National Scholarship | China Education Department |
| Oct. 2015 | Tongji First-class Scholarship Award | Tongji University |
| Nov. 2013 | Shanghai Government Scholarship | Shanghai Municipal People’s Government |
Publications
NOTE: * represents corresponding author.
Journal papers
[1] Jing Luo, Minjuan He*, Zheng Li, Zhaozhuo Gan, Xijun Wang. Analytical investigation and parametric study on the fire behavior of glulam bolted beam-to-column connections based on the quasi-non-linear fracture mechanics model. Fire Safety Journal, 2022,133: 103662. JCR-Q2, IF = 3.100.
[2] Jing Luo, Minjuan He, Zheng Li *, Zhaozhuo Gan, Xijun Wang, Liang F. Experimental and numerical investigation into the fire performance of glulam bolted beam-to-column connections under coupled moment and shear force. Journal of Building Engineering, 2022, 46: 103804. JCR-Q1, IF = 7.144.
[3] Jing Luo, Minjuan He, Zheng Li *, Jiajia Ou, Guirong He. Seismic performance evaluation of glulam structures with either braced frames or knee-braced frames as the main lateral load resisting system. Soil Dynamics and Earthquake Engineering, 2022, 154: 107134. JCR-Q2, IF = 4.000
[4] Jing Luo, Minjuan He, Dao Tao, Zheng Li *. Analytical investigations on the glulam beam-to-column connections reinforced with knee braces. Journal of Architectural Engineering, 2022, 28(2): 04022004. JCR-Q3, IF=2.0.
[5] Xiaofeng Sun, Lie Luo, Shuo Sun, Jing Luo*, Jiajia Ou. An experimental and numerical study on the rotational behavior of bolted glulam beam-to-column connections reinforced by double U-shaped welded steel sections. Engineering Structures, 2024, 301(15), 117315. JCR-Q1, IF=5.5.
[6] Minjuan He, Jing Luo, Dao Tao, Zheng Li*, Sun, Y., He, G. Rotational behavior of bolted glulam beam-to-column connections with knee brace. Engineering Structures, 2020, 207: 110251. JCR-Q1, IF=5.5.
[7] Zheng Li, Jing Luo, Minjuan He*, Dao Tao, Feng Liang, Guirong He. Seismic performance of multi-story glulam post-and-beam structures reinforced with knee-braces. Journal of Building Engineering, 2021, 44: 102887. JCR-Q1, IF = 7.144.
[8] Zheng Li, Jing Luo, Minjuan He*, Guirong He, Yongliang Sun. Analytical prediction of the fire resistance of the glulam bolted connections under coupled moment and shear. Journal of Building Engineering, 2021,33: 101531. JCR-Q1, IF = 7.144.
[9] Xiaofeng Zhang, Jing Luo, Lisheng Luo, Youfu Sun, Zheng Li* Experimental and numerical investigation into the bending behavior of stiffened hollow glulam beams [J]. Journal of Building Engineering, 2022,45: 103488. JCR-Q1, IF = 7.144.
[10] Zhan Shu, Bo Ning, Jiaxin Chen, Zheng Li*, Minjuan He, Jing Luo, Hanlin Dong. Reinforced moment‐resisting glulam bolted connection with coupled long steel rod with screwheads for modern timber frame structures [J]. Earthquake Engineering & Structural Dynamics, 2023, 52(4): 845-864.
[11] Jing Luo, Minjuan He. Applications of spatial timber structures in China and research on the performance of their typical connections. Journal of the IASS, 2023, accepted.
[12] Jing Luo, Penghao Wang, Minjuan He, Keyi Qiu. Mechanical behavior of composite column using cold-formed steel lipped angle. Engineering Mechanics, 2024, accepted. (In Chinese)
[13] Zheng Li,Jing Luo,Minjuan He*,Xiangsheng Yu,Feng Liang,Zhan Shu,Yongliang Sun. Analytical investigation into the rotational behavior of glulam bolted connections with slotted-in steel plates under coupled bending moment and shear force. China Civil Engineering Journal. 2021, 54(3): 98-108, 128. (In Chinese)
[14] Zhan Shu, Jiaxin Chen, Jing Luo*. Research on the mechanical properties of the glulam reinforced beam-to-column connection with long steel rods. Journal of Tongji University (Natural Science), 2024, accepted. (In Chinese)
[15] Jing Luo, Minjuan He, Zheng Li.* A state-of-art of experimental research and calculated models of dowel-type timber connections in fire [J]. International Journal of High-Rise Buildings. 2021,10(4): 285-297.
[16] Jing Luo, Minjuan He. Load⁃carrying capacity model of glulam connections exposed to standard fire based on Johansen’s model [J]. Fire Science and Technology, 2023,42(07):892-896.
[17] Zheng Li, Jing Luo, Dongping Wu,He Minjuan, Liang Feng. Influence of the X-based fire retardant coatings on the mechanical strength and hygroscopicity of Douglas fir [J]. Architectural Technology. 2020, 51(3): 319-322. (In Chinese)
[18] Zheng Li, Jing Luo, Minjuan He. Current Status and Enhancement Recommendations for the Prefabricated Timber Structure Standard System in China [J]. Standardization of Engineering Construction, 2018, 10: 67~72. (In Chinese)
[19] Minjuan He, Jing Luo, Zheng Li. Modular Characteristics and Prospects for Prefabrication in Tall Timber Structures [J]. Building Technology, 2017, 5: 16~20. (In Chinese)
Conference papers
[1] Jing Luo, Zhixu Yang, Ke Ren, Yubo Cheng, Zhaoyang Sui, Xijun Wang, Hanlin Dong. Intelligent damage recognition of timber structure connections based on x-ray digital radiography method [C]. 18th world conference on earthquake engineering. Milan, Italy, 30th June-5th July, 2024.
[2] Jing Luo, Minjuan He *, Zheng Li. Damage assessment and fire performance of glulam bolted connections with slotted-in steel plate under post earthquake loading scenario, Proceeding of the IASSS2022 Symposium affiliated with APCS2022 conference, China, 2022: 1781-1790.
[3] Jinjiang Zhou, Minjuan He, Jing Luo*. Experiments and numerical simulation investigations on the mechanical performance of glulam enhanced with self-tapping screws along parallel glue seam [C]. Proceeding of the 2024 IASS Symposium. Zurich, Switzerland, 26 - 30 August, 2024.
[4] Jing Luo, Zheng Li, Xiuzhi Zheng, Minjuan He. A calculation approach to the fire resistance of glulam bolted connections under standard fire exposure [C]. Proceedings of the 2023 Academic Exchange Conference by the China Fire Protection Engineering Association, China, 2023: 80-88. (In Chinese)
[5] Minjuan He, Jing Luo, Zheng Li. Key technologies for prefabricated timber buildings [C]. 2017 Modular and Offsite Construction Summit & the 2nd International Symposium on Industrialized Construction Technology. Nov.10-12, 2017, Shanghai, China.
[6] Jing Luo, Minjuan He, Zheng Li. Structural response of a glued laminated timber structure under post-earthquake fire [C]. 5th Joint Workshop on Building / Civil Engineering between Tongji & Tokyo Tech. July 26-28, 2018, Tokyo Institute of Technology, Tokyo, Japan.
Patent applications
[1] Software for calculating the ultimate capacity of the bolted connections considering splitting cracks V1.0, 2021SR0023383.
[2] Software for calculating the ultimate capacity of the bolted connections under coupled moment and shear based on the Johansen model V1.0, 2020SR1888254.
[3] Software for calculated the fire resistance of glulam dowel-type connections V1.0, 2021SR0306558.
Research & Projects
[1] China National Science foundation: “Damage evolution and performance evaluation of the glulam post-and-beam braced structures under coupling effect of earthquake and subsequent fire.” Grant No. 52308268, 2024.1 – 2026.12. Jing Luo (1).
[2] Shanghai Sailing Program (Shanghai scientific and technological innovation action plans): “The influence mechanism of earthquake damage on the fire performance of glulam bolted connections.” Grant No. 23YF1430900, 2023.4-2026.3. Jing Luo (1).
[3] Foundation for University Young Teachers in Shanghai: “The teaching program of the lesson “timber structure” under the requirements of the ideological and political education.” 2023.9-2025.9. Jing Luo (1).
[4] Shanghai Normal University Training Program for China National Science foundation: “Research on the fire model of the glulam damaged connections and structures under standard fire exposure based on Johansen yield model.” 2023.5-2026.5, Jing Luo (1).
[5] Shanghai Normal University UGS Program: “Exploring interdisciplinary learning and practical research in elementary school ancient poetry.” 2024.01-2024.12, Jing Luo (1).
[6] National Key Research and Development Program of China: “Development of multi-story timber and timber hybrid structural systems” Grant No. 2017YFC0703507, Research assistant, Jing Luo (15).
[7] Shanghai Scientific and Technological Innovation Action Plans: “Design method and failure mechanism of steel and timber hybrid structures.” Grant No. 21QA1409300, Research assistant, Jing Luo (4).