2002, 10-: distinguished professor, Beijing Jiaotong University;
1999,08-:Beijing jiaotong university, doctoral supervisor;
1997,09-:Professor, School of Civil Engineering and Architecture, Beijing Jiaotong University;
1994,04-1997,08: Associate Professor, School of Civil Engineering, Beijing Jiaotong University;
1992,04-1994,03: Harbin Institute of Technology, postdoctoral fellow (co-tutor: Academician Du);
1989,03-1992,03: Harbin Institute of Shipbuilding Engineering, Ph.D. candidate (tutor: Academician Gao Yuchen);
1986,09-1989,01:Harbin Institute of Shipbuilding Engineering, master (tutor: Professor Liang Lifu);
1982,09-1986,07: Taiyuan university of technology, undergraduate. Earthquake resistance of engineering structures: mainly study the isolation and earthquake prevention measures and analysis and calculation methods of engineering structures;
Intelligent materials and structures: This paper mainly studies the mechanical properties of various intelligent materials and their applications in structural safety monitoring and vibration control. He presided over 4 projects of the National Natural Science Foundation and 1 project of teaching and scientific research award for outstanding young teachers of the Ministry of Education.
The projects under study are:
Study on out-of-plane seismic performance analysis model of reinforced concrete beam-wall joints
(Hosted by National Natural Science Foundation of China, 2007-2009)
Research on several basic problems of built-in cement-based piezoelectric intelligent devices
(Hosted by National Natural Science Foundation of China, 2008-20 10)
Study on interaction and failure mechanism between super high-rise building and periodic foundation under strong earthquake
(Major research project of National Natural Science Foundation, presided over, 2008-20 10) published more than 60 papers, mainly including:
Part I: Composite materials and fracture mechanics.
1 Liang Lifu & Shi, on inverse problems in variational methods, applied mathematics and mechanics, 1994, 15(9): 8 15-830.
2 Shi, Zhao Shiying, Zhou Limin & Du, Inverse Problems in Piezoelectric Variational Method, Journal of Composite Materials, 1998,15 (3):119-123.
3 stone, Huang Shuping; Du, Several Variational Principles of Coupled Fluid Saturated Porous Media, Journal of Solid Mechanics, 1998,19 (2):176-179.
4 stone, Huang Shuping; Zhang Zimao, Variational Principle of Fluid Filled with Elastic Solids, Applied Mathematics and Mechanics,1999,20 (3): 262-268
5, stone,,; Zhang Zimao, Inverse Problems in Piezoelectric Variational Method and Inverse Problems in Dynamics, Journal of Composite Materials, 2000,17 (3):103-106.
6 Du, Shi and Li; Wu Linzhi, transverse crack tip field in bimaterials, Journal of Mechanical Engineering, 1994, 10(3): 267-272.
Part II: Variational principle.
7 Gao Yuchen & History, Large Strain Field Near the Tip of Interface Crack, International Journal of Fracture,1994/1995,69 (3): 269-279.
Gao Yuchen & History, Plane Stress Crack Tip Field of Incompressible Rubber Materials, Applied Mathematics and Mechanics, 1994, 15(5): 499-506.
9 Shi&Gao Yuchen, Stress and strain field near the notch tip of rubber sheet, Journal of Mechanics, 1995,11(2):169-177.
10 stone, Zhou limin, interfacial debonding of coated fiber reinforced composites under tensile-tensile cyclic load, Acta Mechanics, 2000, 16(4): 347-356.
1 1 Zhang Zimao, Shi, and the general solution of intelligent materials and structures Part III: Intelligent cantilever beam subjected to lateral concentrated force, Journal of Composite Materials, 200 1,18 (1):1/kloc.
12 stone,; Du, General Solution of Intelligent Materials and Structures Part II: Tension Intelligent Cantilever Beam, Journal of Composite Materials, 200 1,18 (1):109-11
13 stone,; Du, General Solution of Intelligent Materials and Structures Part I: Intelligent Cantilever Beam under Bending, Journal of Composite Materials, 200 1,18 (1):105-108.
14 Huang Binbin, Shi Zhifei, piezoelectric cantilever beam under distributed force, Journal of Composite Materials, 2002,19 (4):106-113.
Shi Zhifei, Zhou Limin, interfacial damage, fatigue and mechanics of fiber reinforced composites under tensile fatigue load; Fracture of engineering materials and materials; Structure, 2002, 25: 445-457
16 stone, general solution of density gradient piezoelectric cantilever beam and its application, intelligent materials and structures, 2002,11(1):122-129.
17 sheets, history, analytical solution of simply supported piezoelectric beam under uniformly distributed load, applied mathematics and mechanics. 2003, 24( 10): 12 15- 1223
18, Shi, Zhu Qingjie, interfacial debonding of composites under two-stage loading, Journal of Composites, 2004,21(4):140-145.
19 Chen Ying, Shi, Basic solution of piezoelectric cantilever beam and its application, Journal of Solid Mechanics, 2004,25 (2): 241-245.
Yang Yongbo, Shi, Chen Ying, Piezoelectric Cantilever Actuator under Linear Distributed Load, Journal of Mechanical Engineering, 2004,36 (3): 305-310.
2 1 Liu Tingting, History, Bending Behavior of Functionally Graded Piezoelectric Cantilevers, Ferroelectricity, 2004, Vol.308: 43-5 1
Interface characteristics of reinforced concrete beams strengthened by Peng, Shi and FRP plates, Structural Engineering and Mechanics, 2004, 18(3): 3 15-330.
23 fatigue simulation of reinforced concrete interface under different load conditions, materials science and engineering, 2004, 12(4): 56 1-573.
24 Shi, Chen Ying, functionally graded piezoelectric cantilever beam under different loads, Journal of Applied Mechanics, 2004,74 (3-4): 237-247.
25, History, Research on Interface Fatigue of Fiber Reinforced Composites, Application of Composites, 2005, 12(5): 265-276.
26 Chen Ying, Shi, Exact Solution and Parameter Identification of Functionally Graded Piezoelectric Elastic Cantilever Beam, Journal of Intelligent Materials Systems and Structures, 2005, 16(6): 53 1-539.
27 Shi, Zhou Limin, Meso-damage modeling of fiber/matrix interface under cyclic loading, Composite Science and Technology, 2005,65 (7-8):1203-1210.
28 Stone, Bending Behavior of Piezoelectric Bending Actuator, Intelligent Materials and Structures, 2005, 14(4): 835-842.
29, history, elastic solution of gradient piezoelectric hollow cylinder, key engineering materials, 2006, vol. 302-303: 658-668.
30 Chen Ying, Shi,, Double-layer electrothermal elastic hollow cylinder under thermal load, key engineering materials, 2006, 302-303: 684-692.
3 1 Chen Ying, Shi, mechanical properties of double-layer electrothermal elastic hollow cylinder under coupled load, Journal of Applied Mechanics, 2006,75 (6-7): 326-337.
32, History, Two-dimensional Accurate Analysis of Piezoelectric Bending Actuator, Journal of MEMS and Microengineering, 2006, 16(3): 640-647.
33 Shi, Cui Chang, Zhou Limin, Study on Interface Damage of Reinforced Concrete under Two-stage Loading, Acta Solida Sinica, 2006,25: 808-818.
34 direction, history, etc. Elastic analysis of non-uniform hollow cylinder. Journal of Mechanical Research, 2006, 33:68 1-69 1
Electrostatic analysis of piezoelectric cantilever beam with 35-direction, historical and functional gradient, Journal of Intelligent Materials System and Structure, 2007, 18(7): 7 19-726.
36 Shi, Xiang, He et al., Accurate Analysis of Piezoelectric/Composite Multilayer Cantilever Beam, Intelligent Materials and Structures, 200615:1447-1458.
37 Exact Solution of Stone, Directional and Nonuniform Elastic Hollow Cylinders, Composite Structure, 2007,79 (1):140-147.
38, Shi, Bending Characteristics of 2-2 Multilayer Piezoelectric Bending Actuator, Intelligent Materials and Structures, 2007, 16: 634-64 1
Static analysis of 39 Shi, 2-2 multilayer piezoelectric bending composites, International Engineering Science, 2007, 45: 509-524.
Static analysis of 40-directional, historical and multilayer piezoelectric cantilever beam, master thesis. Solid structure. 2008,45: 1 13- 128
4 1 Zhang Rong, Shi, Bi-interface Debonding of Coated Fiber Reinforced Composites under Fatigue Load, International Journal of Fatigue, (2008), in press. (03 August 2007)
42, history, accurate analysis of two kinds of piezoelectric actuators, intelligent materials and structures, (2008,17 (1). doi:10.1088/0964-1726.
43 Numerical simulation, material and structure of debonding of steel bar/concrete interface of reinforced concrete beams strengthened with FRP under Zhang Rong, Stone, and fatigue loads. (In 2008, in publication. doi: 10. 16 17/s 1 1527-008-9352-3)
Li Yang, Shi, Free vibration of functionally graded piezoelectric beams based on differential quadrature of state space, composite structure. (In 2008, in publication. doi: 10. 10 16
45, Shi,, et al., Vibration analysis of functionally graded piezoelectric cylindrical actuator, smart materials and structures. (2008, 17(2).doi: 10. 1088/0964- 1726/ 17/2/0250 18)
Li yang, Shi, a new method for free vibration analysis of piezoelectric-elastic laminated beams, journal of mechanics (Employment in 2008, in publication)