Current Professional Societies

1. Senior member of China Society of Mechanical Engineering;

2. Board member of Fatigue Branch of China Society of Materials Research

Research Areas

1. Multiaxial fatigue;

2. Thermo-mechanical fatigue;

3. Healing fatigue damage;

4. Structural fatigue damage monitoring and life assessment;

5. Damage tolerance design.

Honors

1. Special allowances experts of the State Council(2006)

2. Science and Technology Award of Beijing (2005)

3. SAE Arch T. Colwell Merit Award（2003）

Selected Publications:

1. Wang Jin-Jie; Shang De-Guang; Sun Yu-Juan; Li, Luo-Jin; Li, Dao-Hang,Thermo-mechanical fatigue life prediction method under multiaxial variable amplitude loading, International Journal of Fatigue, 2019, 127: 382-394.

2. Zhang HM; Shang DG; Liu XD; Liu YN; Zhang Y, Effect of unconstraint vibration treatment on fatigue damage healing for copper film, Materials Science and Engineering A, 2019. 764(online)

3. Li, Dao-Hang, Shang De-Guang, Li, Zhi-Gao, et al, Unified viscoplastic constitutive modelunder axial-torsional thermo-mechanical cyclic loading, International Journal of Mechanical Sciences, 2019,150: 90-102

4. Tao, Z-Q, Shang De-Guang, et al, Multiaxial notch fatigue life prediction based on pseudo stress correction and finite element analysis under variable amplitude loading, Fatigue & Fracture of Engineering Materials & Structures, 2018: 41(8): 1674-1690.

5. Li Dao-Hang; Shang, De-Guang; Thermo-mechanical fatigue damage behavior for Ni-based superalloy under axial-torsional loading, Materials Science and Engineering A, 2018. 719: 61-71.

6. Tao Zhi-Qiang; Shang De-Guang; Sun Yu-Juan, New pseudo stress correction method for estimating local strains at notch under multiaxial cyclic loading, International Journal of Fatigue, 2017,103: 280-293.

7. Wang, Xiao-Wei; Shang, De-Guang, Determination of the critical plane by a weight-function method based on the maximum shear stress plane under multiaxial high-cycle loading,International Journal of Fatigue, 2017,90: 36-46.

8. Tao, ZQ; Shang, DG; Liu, H; Chen, H, Life prediction based on weight-averaged maximum shear strain range plane under multiaxial variable amplitude loading, Fatigue & Fracture of Engineering Materials & Structures, 2016: 39(7): 907-920.

9. Liu, H; Shang, DG, et al, Fatigue life prediction based on crack closure for 6156 Al-alloy laser welded joints under variable amplitude loading, International Journal of Fatigue, 2015, 72: 11-18.

10. Liu H; De-Guang Shang; Liu JZ; Guo ZK, Fatigue life prediction based on crack closure for 6156 Al-alloy laser welded joints under variable amplitude loading, International Journal of Fatigue, 2015, 72: 11-18.

Personal Statement:

Dr. Shang Deguangis currently a professor at the College of Mechanical Engineering and Applied Electronics Technology at Beijing University of Technology. He is also an Editorial Committee Member of the Journal of Mechanical Strength, an Editorial Committee Member of the Journal of Equipment Environmental Engineering, and a Deputy Editor in Chief of the Journal of Beijing University of technology. His main research interest aremultiaxial fatigue, thermo-mechanical fatigue, fatigue crack propagation, healing damage, structural fatigue damage monitoring, fatigue life prediction and durability design of structures. He published more than 300 papers and 2 books.