1. Personal profile
Name: Li Tieying
Sex: Male
Date of birth: 1968.04
Professional title : Professor
Highest education: doctor's degree
Department: Department of Civil Engineering, School of Architecture and Civil Engineering
Academic and social part-time jobs
Nothing
Study and work experience
1986.09~1990.07, Northern JiaoTong University, Railway Engineering, bachelor's degree.
1993.09~1996.05, Taiyuan University of Technology, Structural Engineering, master's degree
2001.09~2005.05, Taiyuan University of Technology, Structural Engineering, doctor's degree
1990.07~1993.09, China Railway12th Bureau Group Co. Ltd, assistant engineer
1993.09 - up to now, Taiyuan University of Technology.
Undertaking work
Undergraduate teaching courses: Earthquake resistance and disaster prevention of civil engineering;
Master student training;
Doctoral training.
Main research fields and directions
Research and teaching work in the fields of ancient building structure, engineering earthquake resistance and structural performance during construction.
Main research results
Major scientific research projects
State assessment, safety limit and performance maintenance of ancient wooden structures, National Natural Science Foundation of China (key project), 2014.01~2018.12, ranked fourth.
Time-varying performance evaluation method of ancient building protection technology application and key technology research on repair of wooden skeleton under heavy load, National Natural Science Foundation of China, 2013.01~2016.12,person in charge.
Research on overall structural performance and safety evaluation of ancient wooden buildings based on physical damage and model experiments, National Natural Science Foundation of China, 2010.01~2012.12, person in charge.
Research on key problems of earthquake resistance in the repair of ancient wooden structures, National Natural Science Foundation of China, 2007.01~2009.12, person in charge.
Research on anti-lateral force mechanism and structural analysis method of wooden frame of ancient buildings, National Natural Science Foundation of China, 2004.01~2006.12, person in charge.
Experimental research on key structural performance and wind load characteristics of large and complex steel structure construction of Xi'an north station on Zheng-Xi passenger dedicated line, Xi'an north station headquarters of China railway 12th bureau group Co., Ltd., 2010.04~2011.06, person in charge.
Research on steel structure design and construction technology of Jinan west passenger station on Beijing-Shanghai high-speed railway, Jinan west passenger station project management department of China railway 12th bureau group Co., Ltd., 2010.08~2011.12, person in charge.
Inspection and research of key technologies and physical structure performance of Chongqing west railway station. Chongqing west railway station project department of China railway 12th bureau group Co., Ltd., 2015.07~2017.07, person in charge.
Main paper
1) Xianjie Meng, Tieying Li, Qingshan Yang. Experimental Study on the Seismic Mechanism of a Full-Scale Traditional Chinese Timber Structure. Engineering Structures., 2019; 180: 484-493.
2) Xiwang Shi, Tieying Li, Yohchia Frank Chen, Jinyong Chen,Qingshan Yang. Full-scale tests on the horizontal hysteretic behaviour of a single-span CBD timber frame. International Journal of Architectural Heritage,2018,DOI: 10.1080/ 15583058.2018.1547799
3) Xianjie Meng, Tieying Li, Qingshan Yang. Lateral structural performance of column frame layer and Dou-Gong layer in a timber structure. KSCE Journal of Civil Engineering, 2018,DOI 10.1007/s12205-018-0259-4
4) Xianjie Meng, Qingshan Yang, Jianwei Wei, Tieying Li. Experimental investigation on the lateral structural performance of a traditional Chinese pre-Ming dynasty timber structure based on half-scale pseudo-static tests. Engineering Structures, 2018, 167,582–591.
5) Xianjie Meng,Tieying Li,Qingshan Yang,Jianwei Wei. Seismic mechanism analysis of a traditional Chinese timber structure based on quasi-static tests. Structural Control and Health. Monitoring, 2018,25(10):e2245.
6) Shi, Xiwang, Chen, Y. F., Chen, J. Y., Yang, Q. S., & Li, T. Y. Experimental assessment on the hysteretic behavior of a full-scale traditional chinese timber structure using a synchronous loading technique. Advances in Materials Science and Engineering, 2018(1), 1-15.
7) Niu, Qingfang, Wan, Jia, Li, Tieying, & Chen, Y. F. Hysteretic behavior of traditional chinese timber frames under cyclic lateral loads. Materialprufung, 2018,60(4), 378-386.
1) Xianjie Meng, Tieying Li, Qingshan Yang. Experimental Study on the Seismic Mechanism of a Full-Scale Traditional Chinese Timber Structure. Engineering Structures, 2019, 180: 484-493.
2) Xiwang Shi, Tieying Li, Yohchia Frank Chen, Jinyong Chen,Qingshan Yang. Full-scale tests on the horizontal hysteretic behaviour of a single-span CBD timber frame. International Journal of Architectural Heritage, 2018, DOI: 10.1080/ 15583058.2018.1547799
3) Xianjie Meng, Tieying Li, Qingshan Yang. Lateral structural performance of column frame layer and Dou-Gong layer in a timber structure. KSCE Journal of Civil Engineering, 2018,DOI 10.1007/s12205-018-0259-4
4) Xianjie Meng, Qingshan Yang, Jianwei Wei, Tieying Li. Experimental investigation on the lateral structural performance of a traditional Chinese pre-Ming dynasty timber structure based on half-scale pseudo-static tests. Engineering Structures, 2018, 167,582–591.
5) Xianjie Meng, Tieying Li, Qingshan Yang, Jianwei Wei. Seismic mechanism analysis of a traditional Chinese timber structure based on quasi-static tests. Structural Control and Health Monitoring, 2018,25(10):e2245.
6) Xiwang Shi, Yohchia Frank Chen, Jinyong Chen, Qingshan Yang, Tieying Li. Experimental assessment on the hysteretic behavior of a full-scale traditional chinese timber structure using a synchronous loading technique. Advances in Materials Science and Engineering, 2018(1), 1-15.
7) Qingfang Niu, Jia Wan, Tieying Li, Yohchia Frank Chen. Hysteretic behavior of traditional chinese timber frames under cyclic lateral loads. Materialprufung, 2018,60(4), 378-386.
8) Jinyong Chen, Tieying Li, Qingshan Yang, Shi, Xiwang Shi, Zhao, Y. Degradation laws of hysteretic behaviour for historical timber buildings based on pseudo-static tests. Engineering Structures, 2018,156, 480-489.
9) Jinyong Chen, Yohchia Frank Chen, Xiwang Shi, et al. Hysteresis behavior of traditional timber structures by full-scale tests[J]. Advances in Structural Engineering, 2017, 21(4):136943321771711.
10) Guanfeng Qiao, Tieying Li, Yohchia Frank Chen. Assessment and retrofitting solutions for an historical wooden pavilion in china. Construction & Building Materials, 2016,105, 435-447.
11) Shiwen Li, Jianwei Wei, Tieying Li, Qingming li. Assessment of Repairs and Strengthening of a Historic Masonry Pagoda Using a Vibration-Based-Method, Journal of Structural Engineering,American Society of Civil Engineers, 2009, 135(1),67-77.
12) Xiwang Shi, Jingyong Chen ,Guanghong Chuan, Tieying Li,Geometic nonlinear analysis of thedisplacement sensor with a wide measuring range. Journal of Huazhong University of Science and Technology (Natural Science Edition), 2017, 45(7): 6-10.
13)Xiwang Shi, Tieying Li, Jianwei Wei, Jinyong Chen, Experimental study on horizontal hysteretic behavior of full-scale timber frame with dou-gong sets. Journal of Zhejiang University (Engineering Edition), 2018, 52(12): 1-10.
14) Tieying Li, Jianwei Wei. Two-parameter seismic damage criterion of wooden structure and seismic response evaluation of Yingxian Wooden Pagoda, Journal of Building Structures, 2004, 25(2), 91-98.
15) Li, Tieying, Wei, Jianwei. Wooden structure of high-rise ancient buildings-Evaluation of the current structure of Yingxian Wooden Pagoda, Journal of Civil Engineering, 2005,38(2), 51-58.
7. Honor
(1) Research and application of key technologies for comprehensive construction of Jinan West Station of Beijing-Shanghai High-speed Railway.
China Railway Construction Corporation, Science and Technology Award, First prize (2012-12-30), (ranked second).
China Construction Enterprise Management Association, Scientific and Technological Innovation Achievements, First Prize (2013), (ranked second).
Science and Technology Progress of Shanxi Province, Third Prize (2013), (ranked second).
(2) Experimental study on key structural performance and wind load characteristics of complex steel structure construction of large railway passenger station.
China Railway Construction Corporation, Science and Technology Award, First prize (2011-8-3), (ranked second).
China Construction Enterprise Management Association, Scientific and Technological Innovation Achievements, Second Prize (2012), (ranked second).
China Railway Society, Science and Technology Award, Third Prize (2012),(ranked second).
Shanxi Province Science and Technology Progress, Third Prize (2013), (ranked second).
Test and analysis of beam string structure.
China Railway Construction Corporation, Science and Technology Award, first prize (2007-5-2), (ranked second)
China Construction Enterprise Management Association, Scientific and Technological Innovation Achievements, Second Prize (2007), (ranked second).
(4)Research on seismic performance and durability technology of grid structure.
China Railway Construction Corporation, Science and Technology Award, Second Prize (2010-19-2), (ranked second)
(5) Bolt ball node grid construction tracking test and corrosion bearing capacity research.
China Railway Construction Corporation, Science and Technology Award, Second Prize (2007-20-2), (ranked second)
(6) Research on the key basic issues in the protection of the wooden pagoda in Yingxian.
Science and Technology Progress of Shanxi Province, Second Prize(2007-Z-2-010), (ranked first).
(7) Fatigue performance of bolt ball joint grid under the action of suspended crane.
Science and Technology Progress of Shanxi Province, Third Prize (2008-J-3-036), (ranked fifth)
8.Contact information
Mailing address: Department of Civil Engineering, Taiyuan University of Technology, No.79 Yingzexi Street, Taiyuan City
Postcode: 030024
Mobile: 13994233859
E-mail: lty680412@163.com
