Name:Hong ZUO
Current position:Professor
E-mail:zuohong@mail.xjtu.edu.cn
Homepage:http://gr.xjtu.edu.cn/web/zuohong-en
lResearch Interests
Solid mechanics, Fracture mechanics, Damage mechanics, Mechanical reliability, Biomedical engineering, Fatigue and damage analysis, Failure analysis, etc.
l Work experience
1986.7-1990.8 |
Teacher, Shaanxi heavy machinery co., LTD |
1996.7-1998.7 |
Post-doctor, State Key Laboratory for Strength and Vibration of Mechanical Structures,Xi’an Jiaotong University |
1998.8-2003.9 |
Senior engineer,Wuxi weifu group co.,LTD |
lEducation
1982-1986 |
BA University of Northwestern Polytechnical University,Xi’an, China |
1990-1993 |
MA University of Northwestern Polytechnical University, Xi’an, China |
1993-1996 |
PhD University of Northwestern Polytechnical University, Xi’an, China |
lHonors and Awards
· The project of “The theories of crack shielding effect induced by the microscopic cracks based on the M-integral” was awarded the first prize of natural science award of Shaanxi province. (05/2015)
· The project of “The new theory and application for the multi-damage and defect discribed by the configurational force theory” was awarded the first prize of natural science award of Shaanxi province. (05/2014)
· The project of “The criterion for the evolution and interference of multi-damage and defect based on the configurational force theory” was awarded the first prize of college science and technology progress of Shaanxi's universities. (04/2014)
lRepresentative Publications
[1]Zuo, Hong*,Feng, Yu-Hong,A new method for M-integral experimental evaluation,International Journal of Damage Mechanics,2013,22(2):238-246。
[2]Hong Zuo*,Yuhong Feng,A universal crack extension criterion based on the equivalent stress gradient: I. theory and numerical verification,Acta Mechanica Solida Sinica,2012,25(1):100-110。
[3]Hong Zuo*,Hongbai Bai,Yuhong Feng,The Analysis of Stiffness for Rubbery Metallic Material Based on Mesoscopic Features,Materials Sciences and Applications,2011,vol(2):654-660。
[4]H. Qiu,L.N. Wang,H. Zuo,K. Hiraoka,Validity of strain-induced martensite transformation in enhancing fracture behavior of Cr–Ni weld metal at different temperatures and in different stress states,Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing,2013,586:93-99。
[5]H. Qiu,L.N. Wang,J.G. Qi,H. Zuo,K. Hiraoka,Enhancement of fracture toughness of high-strength Cr–Ni weld metals by strain-induced martensite transformation,Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing,2013,579:71-76。
[6]H. Qiu,L.N. Wang,H. Zuo,G. Arakane,K. Hiraoka,Optimization of the content of retained austenite in Fe–(0.01–0.045)C–14Cr–(4–9)Ni weld metals for strength–ductility balance,Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing,2013,565:102-111。
[7]H. Qiu,L.N. Wang,H. Zuo,G.Arakane,FX.Yin,K. Hiraoka.,Enhanced low-temperature tencile properties of Fe-14Cr-(4-9)Ni weld by retained austenite,日本熔接学会文集,2012,30(2):171-179。
[8]Qun Li, Junnan Lv, Junling Hou, Hong Zuo*. Crack-tip shielding by the dilatant transformation of particles/fibers embedded in composite materials[J], Theoretical and Applied Fracture Mechanics, 2015, 80: 242-252.
[9]Junling Hou, Qun Li*, Junnan Lv, Hong Zuo. Crack deflection by the transformable particles dispersed in composites[J]. Acta Mechanica, 2015, .
[10]Junling Hou, Qun Li*, Guangyan Liu, Hong Zuo. Fundamental solutions of a crack impinging upon an interface slippage in laminated anisotropic bodies[J]. Archive of Applied Mechanics, 2015.
[11]Rong Wang, Hong Zuo*, Yi-Min Yang, Bo Yang, Qun Li**. Finite element simulation and optimization of radial resistance force for shape memory alloy vertebral body stent. Journal of Intelligent Material Systems and Structures,2016.
[12] Rong Wang1, Lin Niu*, Qun Li1, Qida Liu1, Hong Zuo*. The peritubular reinforcement effect of porous dentine microstructure. PLOS ONE, 12(8):August 31, 2017.