Ding Yang, professor, doctoral supervisor. Over the years, he has published many papers in the media and participated in many major projects. In 2006, he won the candidate of the "New Century Excellent Talents Support Program" of the Ministry of Education; In 2008, the Ministry of Science and Technology "advanced individual of high-tech Olympics" and so on. The research direction is the design theory and engineering application of steel structure and spatial structure.

Chinese name: Ding Yang.

Nationality: China.

Ethnic group: Han nationality

Place of birth: Shandong

Occupation: teacher

Graduate school: Tianjin University

Main achievements: Candidates for the "New Century Excellent Talents Support Program" of the Ministry of Education in 2006.

In 2008, the Ministry of Science and Technology "advanced individual in the high-tech Olympics"

Representative Works: Design Principles of Steel Structures-A Series of Textbooks for Civil Engineering Specialty.

Title: Professor

Educational resume

1984.9- 1988.7: Department of Civil Engineering, Tianjin University, undergraduate;

1988.9-1991.3: Master, Department of Civil Engineering, Tianjin University;

1995.9- 1999.3: Department of Civil Engineering, Tianjin University, Ph.D. ..

Job resume

1994.6- 1999.6 Lecturer, School of Architecture and Engineering, Tianjin University;

1999.6-2004.6 Associate Professor, School of Architecture and Engineering, Tianjin University;

June 2004-Professor, School of Architecture and Engineering, Tianjin University;

From March 2005 to today, he is a doctoral supervisor in the School of Architecture and Engineering, Tianjin University.

title of honour

2006: Candidate of "New Century Excellent Talents Support Program" of Ministry of Education;

2008: "Advanced Individual in High-tech Olympics" by Ministry of Science and Technology.

representative works

Experimental study on cast steel joints of Tianjin Olympic Center Stadium. Journal of Building Structure, Volume 29, No.5: 8- 12, June 2008. (EI)

Numerical simulation and monitoring of steel roof construction of Tianjin Olympic Center Stadium. Journal of Building Structure, Volume 29, No.5: 1-7, June 2008. (EI)

Wind-induced vibration coefficient of long-span spatial structures considering natural vibration effect of roof slab and fluid-solid coupling effect. Journal of Building Structure, Volume 29, No.5:10/-106, June 2008. (EI)

Multi-dimensional and multi-point nonstationary random seismic response analysis of long-span spatial structures. Engineering Mechanics, Volume 24, No.3: 97- 103, March 2007.

Damage identification and location of long-span spatial grid structure nodes. Journal of Tianjin University, Vol.40, No.6: 726-730, June 2007.

Numerical simulation method of wind load on long-span spatial grid structure. Journal of Tianjin University, Vol.40, No.7: 766-770, July 2007.

Finite element analysis of static and dynamic performance of long-distance pipeline cable crossing structure. Engineering Mechanics, Volume 24, No.8: 173- 177, August 2007.

Nonlinear finite element analysis of fire resistance of steel frame columns. Journal of Harbin Institute of Technology, Volume 39,No. 12: 1957- 1960, 2007, No.65438+February. (EI magazine)

Analysis of the influence of long-term equipment vibration on the bearing capacity of the built steel structure factory building. Building Structure, Volume 37, No.3: 60-62, March 2007.

Damage location of long-span spatial grid structures. Journal of Building Structure, 2006,27 (1):16-23.

Finite element analysis of fire resistance of steel frame beam. Journal of Tianjin University, 2006,39 (2):181-187.

Study on wind-induced vibration response and wind-induced vibration control of long-span spatial steel tube truss structure. Journal of Hunan University, 2006,33 (3):17-21.

Experimental study on seismic performance of long-distance pipeline suspended cable span structure under simulated damage. Earthquake Engineering and Engineering Vibration, 2006,26 (4):192-198.

Elasto-plastic analysis of spatial grid structure considering damage accumulation effect under earthquake. Engineering Mechanics, Volume 22, No.65438 +0: 54-58, February 2005.

Theoretical analysis of torsional behavior of reinforced concrete box girder strengthened with CFRP under combined action of bending, shear and torsion. Journal of Civil Engineering, Volume 38,No. 12: 48-54, June 5438+02, 2005.

Seismic isolation analysis of long-span spatial structures with shape memory alloy composite rubber bearings. Journal of shenyang jianzhu university, 2 1, No.5: 438-444, September 2005.

Experimental study on seismic behavior of assembled steel reinforced concrete frame joints. Journal of Harbin Institute of Technology, Volume 37, Supplement: 325-329, August 2005.

Study on cable control of shape memory alloy for seismic response of high-rise steel structures. Earthquake Engineering and Engineering Vibration, Volume 25, No.3: 152- 157, June 2005.

Theoretical calculation and test of ultimate bearing capacity of welded I-beam web, Journal of Tianjin University, 37(4):288-293, August 2004.

Calculation method of long-span steel cable membrane structure, Journal of Harbin Institute of Technology, 35 (11):1377-1380, June 2003.

Nonlinear finite element analysis of seismic performance of concrete-filled steel tubular frame structure, Building Structure, 34( 1):3-6+38, 2004, 1.

Science and technology award

1. Research and engineering application of damping control for urban light rail and viaduct. The second prize of the State Council National Science and Technology Progress in 2008.

2. Seismic analysis and research on vibration and noise reduction of Tianjin light rail project. In May 2005, Tianjin Municipal People's Government won the first prize for scientific and technological progress (2004JB- 1-003).

3. Experimental and theoretical research on seismic performance of high-rise concrete-filled steel tubular buildings. In May 2005, Tianjin Municipal People's Government won the second prize for scientific and technological progress (2004JB-2-034).

4. Study on seismic response analysis and damping control of urban expressway viaduct. Second Prize of Tianjin Science and Technology Progress (2007JB-2-0 18), Tianjin Municipal People's Government, June 5438+1October 2008.

5. Research on wind-resistant and earthquake-resistant safety and damage monitoring of long-span space structure in sports center. Second Prize of Scientific and Technological Progress of Tianjin Municipal People's Government (2008JB-2-029), June 2008 165438+ 10.

6. Comprehensive construction technology of Tianjin Olympic Center Stadium. Second Prize of Tianjin Science and Technology Progress (2008JB-2-0 16), Tianjin Municipal People's Government, 2008, 1 1.

national patent

1. Semi-active shape memory alloy damper. People's Republic of China (PRC) invention patent, application number: (omitted), February 9, 2007; Publication number: cn10/016757, August 2007 15.

2. Magnetorheological damper with bidirectional adjustment of damping force. Application number: (omitted). August 65438+February 28, 2007; Publication number: cn101215861,July 9, 2008.

3. Effective MR damper with full damping channel. Application number: (omitted). X, 2007,65438+February 28th; Publication number: CN101215859, July 9, 2008.

4. High output MR damper. Application number: (omitted). 4. 65438+February 28th, 2007; Publication number: CN101215860, July 9, 2008.

Teach a course

Principle of steel structure design, 48 hours, required course for undergraduates, 3 credits;

Advanced steel structure, 32 hours, postgraduate elective course, 2 credits.

Undertake this project

General Project of National Natural Science Foundation of China. Multi-dimensional random seismic response analysis of long-span spatial structures and research on intelligent control system (505438+009), 2006.438+0-2008.438+02;

Supported by the National Natural Science Foundation's major research project "Dynamic Mutation of Major Projects". Detailed study on catastrophic behavior of long-span spatial structures under strong earthquakes (90715034): 2008+0-200438+05438+02;

Key projects of National Natural Science Foundation of China. Basic research on explosion-proof safety of large buildings (5068030). 56680.8686868666 1

Key projects of national science and technology support plan. Research and demonstration of key technologies for explosion and collision resistance of large-scale important buildings (2006baj13b02) .2006.5438+02-2010.6438+02;

Key projects of national science and technology support plan. Seismic technology and demonstration of rural buildings (2006b03) .2006.12-2010.12;

Key projects of Tianjin applied basic and cutting-edge technology research plan. Study on Simulation of Accident and Explosion Disaster in Subway Station and Protective Measures (2007);

Tianjin science and technology plan project. Research on key technologies of disaster prevention and control of large and important urban buildings, 2007.10-2010.9.2008.4-2010.9.

Completed project

Supported by National Natural Science Foundation of China, theoretical and experimental research on damage accumulation and failure mechanism of long-span spatial structures (50064), 2003+0-2005+02;

Tianjin social development plan (tackling key problems) project, research on wind-resistant and earthquake-resistant safety and health monitoring of long-span spatial structures in sports centers (04311211). 50666.86666666666

Tianjin Natural Science Foundation Project, Research on Theory and Application of Anti-seismic and Wind-resistant Intelligent Control for High-rise Buildings (0236 1 1), 2003.56438+0-2004.56438+02;

Project supported by Science and Technology Plan of Tianjin Construction Committee, Theoretical Research and Engineering of Fire Resistance Design of Building Steel Structure (20020 1), July 2003-June 2005;

Tianjin social development plan (tackling key problems) project, seismic analysis and research on vibration reduction and noise reduction technology of Tianjin light rail project (02311251), 2003.6438+0-2004.5438+02;

Tianjin Natural Science Foundation Project, Experimental and Theoretical Study on Seismic Performance of High-rise Concrete-filled Steel Tubular Buildings (013617411), 2002.1-2004.12;

Tianjin Natural Science Foundation, Study on Seismic Response Analysis and Vibration Control of Urban Expressway Elevated Bridges (05 yfgmgc 10900), 2005+438+0-2006+02.