ZHONG Zheng
Address:
School of Science, HIT Campus, University Town of XiLi, Shenzhen (518055)
Email:
zhongzheng@hit.edu.cn
Phone:
PERSONAL PROFILE
 
Professor Zheng Zhong got his Bachelor,Master and Doctoral degrees at Tsinghua University respectively in 1985, 1987 and 1991. He is now a full professor and dean of School of Science at HIT (Shenzhen). His main research interests include mechanical behavior of advanced materials, smart materials and structures, numerical methods in engineering and science,structural vibration and noise, etc. He has published over 100 technical papers. He obtained Chinese National Outstanding Young Teacher Award in 2000 and Chinese National Excellent Young Investigator Fund in 2001. He has sponsored more than 10 grants and projects including Key Project of National Natural Science Foundation of China.
RESEARCH INTEREST
 
1、Nonlinear Mechanics and Applications
2、Mechanics of Composite Materials and Structures
3 、Fatigue and Fracture of Advanced Materials
4、Biomechanics and Bionics
EDUCATION  
1980.9—1985.7
Tsinghua University, Undergraduate Student
1985.9—1987.12
Tsinghua University, Master Student
1987.12—1990.12
Tsinghua University, Ph.D Student
RESEARCH & WORK EXPERIENCE  
1990.12—1994.1
Lecturer, Department of Engineering Mechanics, Tongji University
1994.1—1998.6
Associate Professor, Department of Engineering Mechanics, Tongji University
1998.6—2004.1
Professor, Department of Engineering Mechanics, Tongji University,
2004.1—2016.11
Professor and Dean, School of Aerospace Engineering and Engineering Mechanics, Tongji University,
2016.9—
Professor and Dean, School of Science, HIT (Shenzhen)
PROFESSIONAL QUALIFICATION & ACADEMIC SERVICE
 
2006—2014
2006—2014

Executive council member, Chinese Society of Theoretical and Applied Mechanics
2011-2015
Chairman, Chinese Society of Theoretical and Applied Mechanics
RESEARCH PROJECTS
2018-2021
Research Grant from National Natural Science Foundation of China, entitled “Mechanics Research on the multi-fields coupling problems in solids with chemical reactions"
2016-2019
Research Grant from National Natural Science Foundation of China, entitled “Macroscale modeling and microscale analysis of self-healing materials"
2011-2014
Research Grant from National Natural Science Foundation of China, entitled “Failure mechanism and fracture criterion of layered electromagnetic composites"
2009-2011
Research Grant from National Natural Science Foundation of China, entitled "Wave motion in functionally graded materials and structures"
2005-2008
Research Grant from National Natural Science Foundation of China, entitled "The Research on the key mechanics problems in functionally graded materials and structures"
2001-2003
Research Grant from National Natural Science Foundation of China, entitled "The mechanics problems in the design of functionally gradient piezoelectric materials"
1997-1999
Research Grant from National Natural Science Foundation of China, "The micromechanics of composite materials with imperfect interfaces"
1992-1994
Research Grant from National Natural Science Foundation of China, entitled "The constitutive relations of polycrystalline solids with grain boundary sliding"
RESEARCH ACHIEVEMENT & AWARDS
1995
Co-recipient of Scientific and Technological Progress Award, First Prize, from the Ministry of Education, P. R. China
2004
Recipient of Scientific and Technological Progress Award, Third Prize, from Shanghai Municipal Government, P. R. China
PATENT
   
None
PAPER & BOOK PUBLICATIONS
1) Zhong Z, Yang W, Yu SW. Further result on symmetric bending of cracked Reissner plate, Theoretical and Applied Fracture Mechanics, 12(1990), 231-240.
2) Zhong Z, Yang W, Hwang KC. Micro-experimental study of large plastic deformation for high purity polycrystalline aluminum, Acta Mechanica Sinica, 7(1991), 360-368.
3) Zhong Z, Yang W, Hwang KC. Domain average SCM and constitutive modelling of polycrystalline aggregates, Science in China, Ser.A, 35(1992), 1230-1241.
4) Zhong Z, Meguid SA. On the eigenstrain problem of a spherical inclusion with an imperfectly bonded interface, ASME Journal of Applied Mechanics, 63 (1996), 877-883.
5) Zhong Z, Meguid SA. On the elastic field of a spherical inhomogeneity with an imperfectly bonded interface, Journal of Elasticity, 46 (1997), 91-113.
6) Zhong Z, Meguid SA. Analysis of a circular arc-crack in piezoelectric materials, International Journal of Fracture, 84 (1997), 143-158 .
7) Zhong Z, Meguid SA. Interfacial debonding of a circular inhomogeneity in piezoelectric materials, International Journal of Solids and Structures, 34 (1997), 1965-1984.
8) Meguid SA, Zhong Z. Electroelastic analysis of a piezoelectric elliptical inhomogeneity, International Journal of Solids and Structures, 34 (1997), 3401-3414.
9) Zhong Z. Electroelastic analysis of a partially debonded inhomogeneity in piezoelectric materials, Key Engineering Materials, 145-149 (1998), 971-976.
10) Meguid SA, Zhong Z. On the elliptical inhomogeneity problem in piezoelectric materials under antiplane shear and inplane electric field, International Journal of Engineering Science, 36 (1998), 329-344.
11) Zhong Z, Meguid SA. On the imperfectly bonded spherical inclusion problem, ASME Journal of Applied Mechanics, 66 (1999), 839-846.
12) Zhong Z, Yu XB. Plasticity theory for particulated composite materials with imperfectly bonded interfaces, Key Engineering Materials, 177-180(2000),303-308.
13) Zhong Z, Yu XB. Scattering of plane compressional waves by a spherical inhomogeneity with a linear spring type interface, Key Engineering Materials, 183-187(2000),223-228.
14) Zhong Z, Sun QP, Tong P. On the axisymmetric deformation of a rod containing a single cylindrical inclusion, International Journal of Solids and Structures, 37(2000),5943-5955.
15) Sun QP, Zhong Z. An inclusion theory for the propagation of martensite band in NiTi shape memory alloy wires under tension,International Journal of Plasticity, 16 (2000),1169-1197.
16) Jin B, Zhou D, Zhong Z. Lateral dynamical compliance of pile embedded in poroelastic half space, Soil Dynamics and Earthquake Engineering, 21 (2001), 519-525.
17) Zhong Z, Dai Y, Mei CC, Tong P. A micromechanical Theory of flow in pulmonary alveolar sheet, Computer Modeling in Engineering and Sciences, 3 (2002), 77-86.
18) Jin B, Zhong Z. A moving mode-III crack in functionally graded piezoelectric material: permeable problem, Mechanics Research Communications, 29 (2002), 217-224.
19) Jin B, Zhong Z. Dynamic stress intensity factor (mode I) of a penny-shaped crack in an infinite poroelastic solids, International Journal of Engineering Science,40(2002),637-646.
20) Hu KQ, Zhong Z, Jin B. Anti-plane shear crack in a functionally gradient piezoelectric material, Acta Mechanica Solida Sinica, 15 (2002), 140-148.
21) Zhang L, Zu JW, Zhong Z. Transient response of viscoelastic moving belts using block-by-block method, International Journal of Structural Stability and Dynamics, 2 (2002), 265-280.
22) Zhong Z, Sun QP. Analysis of a transversely isotropic rod containing a single cylindrical inclusion with axisymmetric eigenstrains, International Journal of Solids and Structures,39(2002),5753-5765.
23) Wang X, Zhong Z. A moving piezoelectric screw dislocation, Mechanics Research Communications, 29 (2002), 425-429.
24) Wang X, Zhong Z. A conducting arc crack between a circular piezoelectric inclusion and an unbounded matrix, International Journal of Solids and Structures, 39 (2002), 5895-5911.
25) Zhong Z, Yu XB, Sun QP, Yu TX, Huang HC. Modeling of phase transformation in a transversely isotropic SMA rod, Key Engineering Materials, 233-236 (2003), 649-654.
26) Wang X, Zhong Z. A circular inclusion with a nonuniform interphase layer in antiplane shear, International Journal of Solids and Structures, 40 (2003), 881-897.
27) Wang X, Zhong Z, Wu FL. A moving conducting crack at the interface of two dissimilar piezoelectric materials. International Journal of Solids and Structures, 40 (10) (2003), 2381-2399.
28) Wang X, Zhong Z. A decagonal quasicrystal with an arc-shaped crack, Acta Mechanica Solida Sinica, 16 (2003), 8-15.
29) Zhong Z, Shu DW, Jin B. Analysis of a mode III crack in a functionally gradient piezoelectric material, Materials Science Forum, 423-425 (2003), 623-628.
30) Wang X, Zhong Z. A crack sliding interface between anisotropic bimaterials, Mechanics Research Communications, 30 (2003), 387-393.
31) Zhong Z, Shang ET. Three-dimensional exact analysis of a simply supported functionally gradient piezoelectric plate, International Journal of Solids and Structures, 40 (2003), 5335-5352.
32) Jin B, Soh AK, Zhong Z. Propagation of an anti-plane moving crack in a functionally graded piezoelectric strip, Archive of Applied Mechanics, 73(2003), 252-260.
33) Dai Y, Zhong Z, Tong P. Transient Response of Airport Runway, Key Engineering Materials, 243-244 (2003): 135-140.
34) Wang X, Zhong Z. A circular tube or bar of cylindrically anisotropic magnetoelectroelastic material under pressuring loading, International Journal of Engineering Science, 41 (2003), 2143-2159.
35) Wang X, Zhong Z. Two-dimensional time-harmonic dynamic green’s functions in transversely isotropic piezoelectric solids, Mechanics Research Communication, 30 (2003), 589-593.
36) Wang X, Zhong Z. A finite long circular tube of cylindrically orthotropic piezoelectric/piezomagnetic composite materials under pressuring and temperature change, International Journal of Engineering Science, 41(2003), 2429-2445.
37) Hu KQ, Zhong Z, Jin B. Electroelastic intensification near anti-plane shear crack in a functionally gradient piezoelectric ceramic strip, Acta Mechanica Solida Sinica, 16 (2003), 197-204.
38) Wang X, Zhong Z. Three-dimensional solution of smart laminated anisotropic circular cylindrical shell with imperfect bonding, International Journal of Solids and Structures, 40 (2003), 5901-5921.
39) Wang X, Zhong Z. The general solution of spherically isotropic magnetoelectroelastic media and its applications, European Journal of Mechanics, 22 (2003), 953-969.
40) Zhong Z, Sun QP, Yu XB. Elastic solutions of a cylindrical rod containing periodically distributed inclusions with axisymmetric eigenstrains, Acta Mechanica, 166(2003), 169-183.
41) Wang X, Zhong Z. Interaction between a semi-infinite crack and a straight dislocation in a decagonal quasicrystal. International Journal of Engineering Science,42(2004),521-538.
42) Zhong Z. Analysis of a partially debonded elliptic inhomogeneity in piezoelectric materials, Applied Mathematics and Mechanics, 25(2004),445-457.
43) Zhong Z, Yu XB, Meguid SA. 3D Micromechanical modelling of particulate composite Materials with imperfect interface, International Journal for Multiscale Computational Engineering, 2(2004), 85-100.
44) Wan YP, Zhong Z, Fang DN. Permeability dependence of the effective magnetostriction of magnetostrictive composites. Journal of Applied Physics, 95(2004), 3099-3110.
45) Wan YP, Zhong Z. Vibration analysis of Tb-Dy-Fe magnetostriction actuator and transducer, International Journal of Mechanics and Materials in Design, 1 (2004),95-107.
46) Wan YP, Zhong Z. Magnetic-bias-field dependence of the magnetoelectric effect in a magnetoelectric structure: A simple model, Modern Physics Letters B,18(2004), 963-969.
47) Nie GJ, Zhong Z. Elasto-plastic analysis of frames by differential quadrature element method,Key Engineering Materials,274-276 (2004), 673-678.
48) Zhang J, Zhong Z, Wu CH. A study on wheel-rail elastic-plastic frictional contact problem, Key Engineering Materials,274-276 (2004), 1029-1034.
49) Yu XB, Sun QP, Zhong Z. Effect of Elastic Matrix Constraint on the Tensile Deformation of NiTi Superelastic Fibre, International Journal of Solids and Structures, 41 (2004), 2659-2683.
50) Hu KQ, Zhong Z, Jin B. Anti-plane shear crack in a functionally gradient piezoelectric layer bonded to dissimilar half spaces, International Journal of Mechanical Sciences,47(2005), 82-93.
51) Zhong Z, Shang ET. Exact analysis of a simply supported functionally graded piezothermoelectric plates, Journal of Intelligent Material Systems and Structures,16(2005), 643-651.
52) Wang J, Lin JB, Wan YP, Zhong Z. A two-dimensional analysis of surface acoustic waves in finite solids with the consideration of electrodes, International Journal of Applied Electromagnetics and Mechanics, 22 (2005), 53-68.
53) Hu KQ, Zhong Z. A moving mode-III crack in a functionally graded piezoelectric strip. International Journal of Mechanics and Materials in Design,2(2005), 61-79.
54) Hu KQ, Li GQ, Zhong Z. Fracture of a rectangular piezoelectromagnetic body, Mechanics Research Communications, 33 (2006), 482-492.
55) Zhong Z, Yu T. Vibration of a simply supported functionally graded piezoelectric rectangular plate, Smart Materials and Structures, 15 (2006), 1404-1412.
56) Zhong Z, Yu T. Two-dimensional Analysis of Functionally Graded Beams, AIAA Journal, 44 (2006), 3160-3164.
57) Cheng ZQ, Zhong Z. Fracture analysis of a functionally graded strip under plane deformation, Acta Mechanica Solida Sinaca, 19 (2006), 114-121.
58) Wan YP, Zhong Z, Qiu ZH. Magnetoelectric voltage coefficients of magnetoelectric composites, Transactions of Nonferrous Metals Society of China, 16 (2006), s20-s24.
59) Lü CF, Chen WQ, Zhong Z. Two-dimensional thermo-elasticity solution for functionally graded thick beams, Science in China G: Physics, Mechanics & Astronomy, 49 (2006), 451-460.
60) Cheng ZQ, Zhong Z. Fracture analysis of a functionally graded interfacial zone between two dissimilar homogeneous materials, Science in China G: Physics, Mechanics & Astronomy, 49 (2006), 540-552.
61) Zhong Z, Yu T. Analytical solution of a cantilever functionally graded beam, Composites Science and Technology, 67 (2007), 481-488.
62) Yu T, Zhong Z. Bending analysis of a functionally graded piezoelectric cantilever beam, Science in China G: Physics, Mechanics & Astronomy, 50 (2007), 97-108.
63) Nie GJ, Zhong Z. Semi-analytical solution for three-dimensional vibration of functionally graded circular plates, Computer Methods in Applied Mechanics and Engineering, 196 (2007), 4901-4910.
64) Hu ZD, Sun QP, Zhong Z. Numerical simulation for stress-induced phase transformation of SMAs tube under tension, Key Engineering Materials, 340-341 (2007), 1181-1186.
65) Nie GJ, Zhong Z. The Elasto-plastic and geometrically nonlinear finite element model of space beam considering restraint torsion, Key Engineering Materials, 340-341 (2007), 335-340.
66) Nie GJ, Zhong Z. Second-order elasto-plastic analysis of frames by differential quadrature element method, Key Engineering Materials, 340-341 (2007), 1321-1326.
67) Zhang C, Zhong Z. Three-dimensional analysis of functionally graded plate based on the Haar wavelet method, Acta Mechanica Solida Sinica, 20(2007), 95-109.
68) Cheng ZQ, Zhong Z. Analysis of a moving crack for a functionally graded strip sandwiched between two homogeneous layers of finite thickness, International Journal of Mechanical Sciences, 49 (2007), 1038-1046.
69) Gao LM, Wang J, Zhong Z, Du JK. Propagation and effect of surface acoustic waves in a layered structure with functionally graded material property patterns, Science in China G: Physics, Mechanics & Astronomy,51(2008),165-175.
70) Wan YP, Qiu JH, Zhong Z. Interfacial stiffness dependence of the effective magnetostriction of particulate magnetostrictive composites, International Journal of Solids and Structures,44 (2007), 18-33.
71) Gao LM, Wang J, Zhong Z, et al. An analysis of surface acoustic wave propagation in a plate of functionally graded materials with a layered model. Science in China G: Physics, Mechanics & Astronomy, 51 (2008), 165-175.
72) Zhong Z, Yu T. Electroelastic analysis of functionally graded piezoelectric material beams. Journal of Intelligent Material Systems and Structures, 19 (2008), 707-713.
73) Zhong Z, Cheng ZQ. Fracture analysis of a functionally graded strip with arbitrary distributed material properties. International Journal of Solids and Structures, 45 (2008), 3711-3725.
74) Zhong Z, Shang ET. Closed-form solutions of three-dimensional functionally graded plates. Mechanics of Advanced Materials and Structures, 15 (2008), 355-363.
75) Nie GJ, Zhong Z. Vibration analysis of functionally graded annular sectorial plates with simply supported radial edges. Composite Structures, 84 (2008), 167-176.
76) Gao LM, Wang J, Zhong Z, et al. An Exact Analysis of Surface Acoustic Waves in a Plate of Functionally Graded Materials. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 56 (2009), 2693-2700.
77) Gao LM, Wang J, Zhong Z, et al. An analysis of surface acoustic wave propagation in functionally graded plates with homotopy analysis method. Acta Mechanica, 208 (2009) , 249-258.
78) Wang LH, Hu ZD, Zhong Z, et al. Hamiltonian dynamic analysis of an axially translating beam featuring time-variant velocity. Acta Mechanica, 206 (2009), 149-161.
79) Li GS, Yin YJ, Li Y, Zhong Z. "Steiner trees" between cell walls of sisal. Chinese Science Bulletin, 54(2009), 3220-3224.
80) Ma JJ, Zhong Z, Zhang CZ. Analysis of a crack in a functionally graded strip with a power form shear modulus. Acta Mechanica Solida Sinica, 22 (2009) , 465-473.
81) Wang LH, Hu ZD, Zhong Z. Dynamic analysis of an axially translating plate with time-variant length. Acta Mechanica, 215 (2009), 9-23.
82) Zhong Z, Chen SP, Shang ET. Analytical Solution of a Functionally Graded Plate in Cylindrical Bending. Mechanics of Advanced Materials and Structures, 17 (2010), 595-602.
83) Nie GJ, Zhong Z. Dynamic analysis of multi-directional functionally graded annular plates. Applied Mathematical Modelling, 34 (2010) , 608-616.
84) Cheng ZQ, Meguid SA, Zhong Z. Thermo-mechanical behavior of a viscoelastic FGMs coating containing an interface crack. International Journal of Fracture, 164 (2010) , 15-29.
85) Zhao HX, Yin YJ, Zhong Z. Micro and nano structures and morphologies on the wing veins of dragonflies. Chinese Science Bulletin, 55 (2010) , 1993-1995.
86) Wan YP, Xie LT, Zhong Z. Micromechanical prediction of the effective electromechanical properties of cellular ferroelectrets. Journal of Applied Physics, 108 (2010) , 054101.
87) Cheng ZQ, Gao DY, Zhong Z. Crack propagating in functionally graded coating with arbitrarily distributed material properties bonded to homogeneous substrate. Acta Mechanica Solida Sinica, 23 (2010) , 437-446.
88) Wang LH, Hu ZD, Zhong Z. Dynamic analysis of an axially translating viscoelastic beam with an arbitrarily varying length. Acta Mechanica, 214 (2010) , 225-244.
89) Cui YQ, Zhong Z. Large scale domain switching around the tip of an impermeable stationary crack in ferroelectric ceramics driven by near-coercive electric field. Science China-Physics Mechanics & Astronomy, 54 (2011) , 121-126.
90) Nie GJ, Zhong Z, Batra RC. Material tailoring for orthotropic elastic rotating disks. Composites Science and Technology, 71 (2011) , 406-414.
91) Wan YP, Xie LT, Zhang XQ, Zhong Z. Time dependence of piezoelectric d(33) coefficient of cellular ferroelectret polypropylene film. Applied Physics Letters, 98 (2011) , 122902.
92) Nie GJ, Zhong Z, Batra RC. Material tailoring for functionally graded hollow cylinders and spheres. Composites Science and Technology, 71 (2011) , 666-673.
93) Wu Z, Zhong Z. A theoretical model for striped patterns in nematic hydrogels. Chinese Science Bulletin, 56 (2011) , 1778-1781.
94) Liu WX, Zhong Z. Three-dimensional thermoelastic analysis of functionally graded plate. Acta Mechanica Solida Sinica , 24 (2011) , 241-249.
95) Cui YQ, Yang W, Zhong Z. Green's function for T-stress of semi-infinite plane crack. Applied Mathematics and Mechanics-English Edition , 32 (2011) , 973-980.
96) Wu H, Zhong Z, Benseddiq N. Numerical simulation of the crack shape for the thermo-mechanical loaded valve. Engineering Failure Analysis, 18 (2011) , 1487-1495.
97) Zhao HX, Yin YJ, Zhong Z. Assembly Modes of Dragonfly Wings. Microscopy Research And Technique, 74 (2011) , 1134-1138.
98) Zhao JF, Pan YD, Zhong Z. Analytical solution for SH wave propagating through a graded plate of metamaterials. Frontiers of Mechanical Engineering, 6(2011), 301-307.
99) Zhao JF, Pan YD, Zhong Z. Theoretical study of shear horizontal wave propagation in periodically layered piezoelectric structure, JOURNAL OF APPLIED PHYSICS, 111 (2012), No.6, 064906他引5
100) Cui YQ, Zhong Z. A novel criterion for nonuniform domain switching of tetragonal ferroelectrics. Mechanics of Materials, 45 (2012), 61-71. 他引1
101) Cheng ZQ, Gao DY, Zhong Z. A moving interface crack between two dissimilar functionally graded strips under plane deformation with integral equation methods. Engineering Analysis with Boundary Element, 36 (2012), 267-273. 他引1
102) Wan, YP,Fan LL, Zhong Z. Finite Element Modeling of Temporal Evolution of the Quasi-piezoelectric d33 Coefficient of Cellular Piezoelectret Polypropylene Film, Computational Materials Science, 55 (2012) , 54-59他引33
103) Cheng ZQ, Gao DY, Zhong Z. Interface crack of two dissimilar bonded functionally graded strips with arbitrary distributed properties under plane deformations. International Journal of Mechanical Sciences, 54 (2012), 287–293. 他引3
104) Wan YP, Yue YP, Zhong Z. Multilayered piezomagnetic/ piezoelectric composite with periodic interface cracks under magnetic or electric field. Engineering Fracture Mechanics, 84 (2012), 132–145. 他引9
105) Wan YP, Xie LT, Lou KX, Zhang XQ, Zhong Z. Experimental and theoretical study on time dependence of the quasi-piezoelectric d33 coefficients of cellular piezoelectret film. Journal of the Mechanics and Physics of Solids, 60 (2012), 1310–1329. 他引6
106) Zhao HX, Yin YJ, Zhong Z. Multi-levels, multi-scales and multi-functions in the fine structure of the wing veins in the dragonfly pantala flavescens (fabricius) (anisoptera: libellulidae). Odonatologica, 41(2012), 161-172. 他引2
107) Liang YC, Fu Z, Yuan X, Wang SM, Zhong Z, Zhang WQ. An unexpected softening from WB3 to WB4. EPL, 98 (2012), 66004. 他引20
108) Liang YC, Yuan X, Fu Z, Li Y, Zhong Z, An unusual variation of stability and hardness in molybdenum borides, APPLIED PHYSICS LETTERS, 101(2012), No.18, 181908
109) Wu Z, Zhong Z. A theoretical model for thermal-sensitive microgel with PNIPAM core and elastic shell. Acta Mechanica Solida Sinica, 25 (2012), 520-529.
110) Wan YP, Yue YP, Zhong Z. A mode III crack crossing the magnetoelectroelastic bimaterial interface under concentrated magnetoelectromechanical loads. International Journal of Solids and Structures, 49 (2012), 3008–3021. 他引12
111) Wan YP, Zhong Z. Effective electromechanical properties of cellular piezoelectret: A review. Acta Mechanica Sinica, 28 (2012), 951–959. 他引1
112) Wan YP, Xie LT, Zhong Z. Variational bounds of the effective moduli of piezoelectric composites. SCIENCE CHINA -Physics, Mechanics & Astronomy, 55 (2012), 2106–2113. 他引2
113) Cui YQ, Zhong Z. Nonuniform ferroelastic domain switching driven by two-parameter crack tip stress field. Engineering Fracture Mechanics, 96(2012), 226–240. 他引1
114) Wang LH, Hu ZD, Zhong Z*, Non-linear dynamical analysis for an axially moving beam with finite deformation, International Journal of Non-Linear Mechanics, 54 (2013), 5–21他引3
115) Nie GJ,Zhong Z*,Chen SP. Analytical solution for a functionally graded beam with arbitrary graded material properties. Composites Part B, 44(2013),274–282. 他引16
116) Nie GJ*,Zhong Z,Exact Solutions for Elastoplastic Stress Distribution in Functionally Graded Curved Beams Subjected to Pure Bending, MECHANICS OF ADVANCED MATERIALS AND STRUCTURES, 19 (2012), No.6, 474-484他引1
117) Wu Z, Zhong Z*. Inhomogeneous equilibrium swelling of core-shell-coating gels. Soft Materials, 11(2013), 215–220. 他引3
118) Wu Z, Zhong Z*, A nonlinear theory accounting for stress-induced orientational transitions in nematic gels, Acta Mechanica, 224 (2013), 1243–1250
119) Wang LH*, Zhong Z, Radial basis collocation method for nearly incompressible elasticity. Journal of Engineering Mechanics-ASCE, 139 (2013), 439-451.
120) Zhao HX, Yin YJ, Zhong Z*, Arnold circulation and multi-optimal dynamic controlling mechanisms in dragonfly wings. Acta Mechanica Solida Sinica, 26 (2013), No. 3, 238-244他引2
121) Wan YP*, Fan LL, Zhong Z, The effective electromechanical properties of cellular piezoelectret film: finite element modeling, Acta Mechanica Solida Sinica, 26(2013),1-8
122) Li HY, Zhang XT, Cheng ZQ*, Gao DY, Zhong Z, Analysis of two dissimilar functionally graded strips containing interface crack under plane deformation, Acta Mechanica Solida Sinica, 26(2013),35-45
123) Wang LH*, Chu FY, Zhong Z, Study of radial basis collocation method for wave propagation, Engineering Analysis with Boundary Elements, 37 (2013), 453–463他引3
124) Fu Z, Liang YC*, Wang SM, Zhong Z. Structural phase transition and mechanical properties of TiO2 under high pressure. Physica Status Solidi B-BASIC SOLID STATE PHYSICS, 250(2013), 2206–2214.
125) Liang YC*, Zhong Z, Zhang WQ, A thermodynamic criterion for designing superhard transition-metal borides with ultimate boron content, Computational Materials Science, 68 (2013), 222–228他引9
126) Liang YC*, Gou YP, Yuan X, Zhong Z, Zhang WQ, Unexpectedly hard and highly stable WB3 with a noncompact structure, Chemical Physics Letters, 580 (2013), 48–52他引16
127) Zhao J, Pan YD*, Zhong Z*, A study of pressure-shear vertical wave propagation in periodically layered fluid and piezoelectric structure, Journal of Applied Physics, 113 (2013), 054903他引3
128) Yu TC, Nie GJ, Zhong Z*, Chu FY, Analytical solution of rectangular plate with in-plane variable stiffness, Applied Mathematics and Mechanics (English Edition), 34 (2013), no.4, 395–404他引1
129) Gao LM, Zhong Z, Zhang CZ, Flexural Wave in an Functionally Graded Periodic Beam, ADVANCES IN VIBRATION ENGINEERING, 12 (2013), No.2, 157-163
130) Xia XD, Cui YQ, Zhong Z*, Nonuniform ferro-elastic domain switching for the interfacial crack, Procedia Materials Science, 3 ( 2014 ), 1638 – 1643
131) Xia XD, Cui YQ, Zhong Z*, A mode III interfacial crack under nonuniform ferro-elastic domain switching, Theoretical and Applied Fracture Mechanics, 69 (2014), 44–52他引1
132) Pan YH, Zhong Z*, Modeling the ion transport restriction in mechanically strained separator membranes, Journal of the Electrochemical Society, 161 (2014) , A583-A586他引5
133) Gou YP, Fu Z, Liang YC*, Zhong Z, Wang SM, Electronic structures and mechanical properties of iron borides from first principles, Solid State Communications, 187(2014),28–32他引5
134) Hu KQ*, Chen ZT, Zhong Z, Pre-kinking analysis of a constant moving crack in a magnetoelectroelastic strip under in-plane loading, European Journal of Mechanics A/Solids , 43 (2014), 25-43他引2
135) Song XH, Dai KS*, Chen G, Pan YD, Zhong Z, Sensitivity study of surface waves for CO2 storage monitoring, International Journal of Greenhouse Gas Control, 20 (2014), 180–188他引1
136) Wang LH, Zhong Z*, Dynamics of the dragonfly wings raised by blood circulation, Acta Mechanica, 225 (2014), 1471–1485他引2
137) Chu FY, Wang LH*, Zhong Z, Finite subdomain radial basis collocation method, Computational Mechanics, 54 (2014), 235–254他引1
138) Chu FY, Wang LH*, Zhong Z, He JZ, Hermite radial basis collocation method for vibration of functionally graded plates with in-plane material inhomogeneity, Computers and Structures, 142 (2014), 79–89他引2
139) Pan YH, Zhong Z*, Modeling of the mechanical degradation induced by moisture absorption in short natural fiber reinforced composites, Composites Science and Technology, 103 (2014) 22–27 他引1
140) Pan YH, Zhong Z*, A nonlinear constitutive model of unidirectional natural fiber reinforced composites considering moisture absorption, Journal of the Mechanics and Physics of Solids, 69 (2014), 132–142他引2
141) Zhou YT, Zhong Z*, Application of dual series equations to wavy contact between piezoelectric materials and an elastic solid, International Journal of Applied Mechanics, 6 (2014), 1450046
142) Zhou YT, Zhong Z*, Frictional indentation of anisotropic magneto-electro-elastic materials by a rigid indenter, Journal of Applied Mechanics, Transactions of the ASME, 81 (2014), 071001他引1
143) Liu L, Zhao JF, Pan YD*, Bonello B, Zhong Z*, Theoretical study of SH-wave propagation in periodically-layered piezomagnetic structure, International Journal of Mechanical Sciences, 85 (2014), 45–54他引3
144) Shi Y, Wan YP*, Zhong Z, Variational bounds for the effective electroelastic moduli of piezoelectric composites with electromechanical coupling spring-type interfaces, Mechanics of Materials, 72 (2014), 72–93他引11
145) Liang YC*, Yang J*, Yuan X, Qiu WJ, Zhong Z, Yang JH, Zhang WQ, Polytypism in superhard transition-metal triborides, Scientific Reports, 4 (2014), 05063他引5
146) Nie GJ*, Zhong Z, Closed-formsolutions forelastoplastic pure bending ofa curved beamwith material inhomogeneity, Acta Mechanica Solida Sinica, 27 (2014), 54-64
147) Hou D, Yin YJ, Zhong Z*, Zhao HX, A new torsion control mechanism induced by blood circulation in dragonfly wings, Bioinspiration and Biomimetics, 10 (2015), 016020
148) Hou D, Yin YJ, Zhao HX, Zhong Z*, Effects of blood in veins of dragonfly wing on the vibration characteristics, Computers in Biology and Medicine, 58 (2015), 14–19
149) Pan YH, Zhong Z*, The effect of hybridization on moisture absorption and mechanical degradation of natural fiber composites: An analytical approach, Composites Science and Technology, 110 (2015), 132–137他引1
150) Pan YH, Zhong Z*, A micromechanical model for the mechanical degradation of natural fiber reinforced composites induced by moisture absorption, Mechanics of Materials, 85 (2015), 7–15 他引1
151) Xia XD, Zhong Z*, Conservation integrals for the interfacial crack in biomaterial and layered ferroelectrics, Engineering Fracture Mechanics, 134 (2015), 202–217
152) Yang F, Zhong Z*, On the energy conservation during the active deformation in molecular dynamics simulations, Journal of the Mechanics and Physics of Solids, 77 (2015), 146–157
153) Xia XD, Zhong Z*, A mode III moving interfacial crack based on strip magneto-electric polarization saturation model, Smart Materials and Structures, 24 (2015), 085015
154) Zhou YT, Zhong Z*, The interaction of two rigid semi-cylinders over anisotropic piezoelectric materials by the generalized Almansi theorem, Smart Materials and Structures, 24 (2015), 085011
155) Li X, Zhou YT, Zhong Z, On the analytical solution for sliding contact of piezoelectric materials subjected to a flat or parabolic indenter, Zeitschrift fur angewandte Mathematik und Physik, 66 (2015), 473–495
156) Pan YH, Zhong Z*, Mechanical Degradation of natural fiber reinforced composite materials under constrained swelling, Journal of Mechanics of Materials and Structures, 10 (2015), 79-91
157) Wang LH*, Zhong Z, Radial basis collocation method for the dynamics of rotating flexible tube conveying fluid, International Journal of Applied Mechanics, 7(2015),1550045
他引3
158) Wang D, Yin YJ*, Wu JY, Zhong Z, The interaction potential between micro/nano curved surface body with negative gauss curvature and an outside particle, Journal of Mechanics in Medicine and Biology, 15(2015), 61540055
159) Zhu Y-Y, Zhong Z, Cheng C-J, A nonlinear mathematical model of thermoelastic thin plates with voids and its applications, International Journal of Applied Mechanics, 7 (2015), 21550029
160) Zhou YT, Zhong Z*,Partial contact in two-layered piezoelectric structure with interface occupying periodic profiles, Archive of Applied Mechanics,85(2015),1649–1665
161) Zhou YT, Zhong Z*, Modeling of roughness contact in piezoelectric/piezomagnetic bimaterial using potentials, Journal of Applied Mechanics — Transactions of the ASME, 82 (2015), 091010
162) Zhang Z, Pan YD*, Xiao Y, Zhong Z, Measurement and analysis of laser generated rayleigh and lamb waves considering its pulse duration, Acta Mechanica Solida Sinica, 28 (2015), 441-452.
163) Zhang ZL, Yin YJ, Zhong Z*, Zhao HX, Aerodynamic Performance of DragonflyWing with Well-designed Corrugated Section in Gliding Flight, CMES: Computer Modeling in Engineering & Sciences, 109(2015), No.3, 285-302.
164) Tian WX, Zhong Z*, Li YC, Multilayered piezomagnetic/ piezoelectric composites with periodic interfacial cracks subject to in-plane loading, Smart Materials and Structures, 25 (2016), 015029
165) Lu YY, Shi JT, Nie GJ. Zhong Z*, An elasticity solution for transversely isotropic, functionally graded circular plates, Mechanics of Advanced Materials and Structures, 23(2016), 451-457
166) Pan YH, Zhong Z*, Micromechanical modeling of the wood cell wall considering moisture absorption, Composites Part B, 91 (2016), 27-35
167) Pan YH, Zhong Z*, Relative humidity and temperature dependence of mechanical degradation of natural fiber composites, SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY, 59(2016), No. 6, 664603
168) Pan YH, Zhong Z*, Analysis of creep and modulus loss of the wood cell wall, Acta Mechanica, 227(2016), No.11, 3191–3203
169) Xia XD, Zhong Z*,Tuning of non-uniform switch toughening in ferroelectric composites by an electric field, Acta Mechanica Sinica, 32(2016), No.5, 866-880
170) Li T, Xiao JZ*, Zhu CM, Zhong Z, Experimental study on mechanical behaviors of concrete with large-size recycled coarse aggregate, Construction and Building Materials, 120 (2016), 321–328. 他引1
171) Xia XD, Wang Y, Zhong Z, Weng GJ*, A theory of electrical conductivity, dielectric constant, and electromagnetic interference shielding for lightweight graphene composite foams, Journal of Applied Physics, 120 (2016), 085102
172) Zhang DB, Zhao JF*, Bonello B, Li LB, Wei JX, Pan YD, Zhong Z, Air-coupled method to investigate the lowest-order antisymmetric Lamb mode in stubbed and air-drilled phononic plates, AIP Advances, 6 (2016), 085021
173) Zhou YT, Zhong Z*, On periodic indentation of a rigid solid occupying a wavy surface moving on multiferroic materials, Mechanics Research Communications, 75 (2016), 49–56
174) Gao YK*, Zhong Z, Lei LM, Influence of Laser Peening and Shot Peening on Fatigue Properties of FGH97 Superalloy, RARE METAL MATERIALS AND ENGINEERING, 45 (2016), No.5, 1230-1234
175) Chu FY, He JZ, Wang LH*, Zhong Z, Buckling analysis of functionally graded thin plate with in-plane material inhomogeneity, Engineering Analysis with Boundary Elements, 65 (2016), 112–125. 他引2
176) Pan YH, Zhan YX, Ji HY, Niu XR*, Zhong Z*, Can hyperelastic material parameters be uniquely determined from indentation experiments? RSC ADVANCES, 6(2016), No.85,81958-81964
177) Wang D, Yin YJ*, Wu JY, Eang XG, Zhong Z, Curvature-based interaction potential between a micro/nano curved surface body and a particle on the surface of the body, JOURNAL OF BIOLOGICAL PHYSICS, 42 (2016), No.1, 33-51
178) Tian F, Pan YH, Zhong Z*, A long-term mechanical degradation model of unidirectional natural fiber reinforced composites under hydrothermal ageing, Composites Science and Technology, 142 (2017) 156–162
179) Xia XD, Hao J, Wang Y, Zhong Z, Weng GJ*, Theory of electrical conductivity and dielectric permittivity of highly aligned graphene-based nanocomposites, Journal of Physics: Condensed Matter, 29 (2017), 205702 (15pp)
180) Xia XD, Wang Y, Zhong Z, Weng GJ*, A frequency-dependent theory of electrical conductivity and dielectric permittivity for graphene-polymer nanocomposites, Carbon, 111 (2017),221-230
181) WANG D, YIN YJ*, WU JY, ZHONG Z, Duality in interaction potentials for curved surface bodies and inside particles, Applied Mathematics and Mechanics (English Edition), 38(2017), No.8,1071–1090
182) Zhang XL, Zhong Z*, A thermodynamic framework for thermo-chemo-elastic interactions in chemically active materials, SCIENCE CHINA-Physics, Mechanics & Astronomy, 60(2017), No.8, 084611
183) Zhang XL, Zhong Z*, A coupled theory for chemically active and deformable solids with mass diffusion and heat conduction, Journal of the Mechanics and Physics of Solids,107(2017), 49–75.
184) Xia XD, Zhong Z, Weng GJ*, Maxwell–Wagner–Sillars mechanism in the frequency dependence of electrical conductivity and dielectric permittivity of graphene-polymer nanocomposites, Mechanics of Materials, 109(2017),42–50
185) Pan YH, Zhong Z*, A viscoelastic constitutive modeling of rubber-like materials with the Payne effect, Applied Mathematical Modelling, 50(2017),621–632
186) Zhou YT, Pang SJ, Zhong Z*, Tribological behavior of a flat or circular stamp sliding on piezoelectric/piezomagnetic composites, International Journal of Applied Mechanics, 9 (2017), No.2, 1750018 (29 pages)
187) Shi Y, Wan YP*, Zhong Z, Dynamic effective property of fibrous piezoelectric composites with spring- or membrane-type imperfect interfaces, Mechanics Research Communications,
84(2017),116-124.
188) Xia XD, Zhong Z*,Semi-permeable Yoffe-type interfacial crack analysis in MEE composites based on the strip electro-magnetic polarization saturation model, Acta Mechanica Solida Sinica,30(2017),354–368.
189) Xia XD, Yu Su, Zhong Z, Weng GJ*, A unified theory of plasticity, progressive damage and failure in grapheme-metal nanocomposites, International Journal of Plasticity,99(2017), 58-80.
190) Zhang DB, Zhao JF*, Bonello B, Zhang FL, Yuan WT, Pan YD, Zhong Z, Investigation of surface acoustic wave propagation in composite pillar based phononic crystals within both local resonance and Bragg scattering mechanism regimes, Journal of Physics D: Applied Physics, 50 (2017), 435602(10pp)
191) Zhan YX, Pan YH, Chen B, Lua J, Zhong Z, Niu XR*, Strain rate dependent hyperelastic stress-stretch behavior of a silica nanoparticle reinforced poly (ethylene glycol) diacrylate nanocomposite hydrogel, Journal of the Mechanical Behavior of Biomedical Materials, 75(2017), 236-243.
192) Zhong Z*, Tian F, Modeling of mechanical behaviors for natural fiber reinforced composites under hygrothermal ageing, SCIENCE CHINA-Physics, Mechanics & Astronomy,60(2017), No.12, 124631
193) Shi Y, Wan YP*, Zhong Z, Anti-plane time-harmonic Green’s functions for a coated circular inhomogeneity in a piezoelectric medium with spring- or membrane-type imperfect interfaces, Mathematics and Mechanics of Solids, 22(2017), No.9, 1813–1846
194) Hou D, Zhong Z*, Yin YJ, Pan YH, Zhao HX, The role of soft vein joints in dragonfly flight, Journal of Bionic Engineering, 14 (2017), 738–745
195) Xia XD, Mazzeo AD, Zhong Z, Weng GJ*, An X-band theory of electromagnetic interference shielding for graphene-polymer nanocomposites, Journal of Applied Physics, 122(2017), 025104
196) Wang L*, Zhong Z. Complex modal analysis for the time-variant dynamical problem of rotating pipe conveying fluid. Computer Modeling in Engineering & Sciences, 2018, 114(1):1-18
CONFERENCE PAPERS/TALKS
 
Published more than 100 papers in international or domestic conferences, including 20 keynote or invited talks
TEACHING/SUPERVISING EXPERIENCE
Teaching in Tongji University (Shanghai) and HIT (Shenzhen)
Supervised 22 Ph.D students and 21 Master students
Updated:2018-04