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Chen Haoran

2015年04月07日 14:44  点击:[]

Title: Professor
Curriculum Vitae:

Personal Status:


Married Two Children, 68 Years.



Education


July 1965: Postgraduated from the Department of Engineering Mechanics, DIT, and P.R.China.


Sept.1962 Graduated from Dept. of Engineering Mechanics, DIT, China



Experience


March, 2006 -June, 2006


Visiting Professor in the University of Western Australia , include:


The research activities (1) Behavior of Buckling, Postbuckling and Delamination Growth for Advanced Grid Composite Material and it Structures


(2) Dynamic Failure of Aluminum Foam Sandwich Structure with Adhesive Interface


July 2004-Oct. 2004


Visiting Professor in the University of Sydney , Australia ,


Research activities: (1) Induced Process Stress Analysis for Composite Filaments Winding Vessel during whole Manufacturing Process;


(2) Damage and its Growth for Delaminated Stiffened Composite Plates and Shells under Static and Dynamic Loading.


April 1997-Aug. 1997


Visiting Professor in University of Wales , Cardiff College , U.K.


Research activities: Technical Mechanics of Thermo-setting Composites.


Sept. 1997-Dec. 1997


Visiting Professor in Compiegne University of Technology , France .


Research activities: Micro-structural Design for Advanced Materials and Strength Analysis of Composite Structure;


April, 1993-Dec, 1993


Visiting Professor in University of Wales , Cardiff College , U.K.


Research activities: Fracture Mechanics of Composite Laminates


Jan 1988-Present


Professor of Engineering Mechanics in DUT.


June 1983-Jan, 1988


Associate Professor in DUT.


April, 1981-June, 1983

Visiting Scholar in Southern Methodist University, Virginia Polytechnic Institute and State University , U.S.A.


Research activities: Structural Mechanics of Composite Materials.



Present Occupation


Professor of Engineering Mechanics in Dalian University of Technology.


Member of Committee of Mechanics of Composite Materials of Chinese Society of Applied and Theoretical Mechanics


Member of Standing Council of Chinese Society of Composite Material


Director of Committee of Mechanics of Composite Materials and Structures


Deputy Chief-Director of Liaoning Society of Composite Materials.


Editor of Acta Materiae Compositae SINICA.


Editor of J. of Fibrous Reinforced Plastic SINICA.


Editor of J. of Ningxia University .


Editor of J. of Dalian University of Technology.



Address


State Key Laboratory of Structural Analysis for Industrial Equipment,


Department of Engineering Mechanics,


Dalian University of Technology. (DUT),


Dalian Liaoning 116023 P.R China.


Tel: 86-411-84709185(h), 86-411-84706348(o)


Fax: 86-411-84708393


E-mail: chenhr@.


Awards



1. National Natural Science Award (Award for Study on loaded capability analysis of cone-Cylindrical connected shells with some cutouts), China, 1979.
2. Natural Science and technology Award of Liaoning province (Award for developments and applications of a general purpose Program JIGFIX), China, 1979.
3. Technology and Science Progress Award of Ministry of shipbuilding and Marion (Award for study on structural analysis of high speed motor boat), China, 1982.
4. National Technology and Science Progress Award (Award for investigation of structural Analysis and design of complicated ship structures), China 1986.
5. Technology and Science Progress Award of Nuclear Energy Industrial Ministry (Award for impact analysis of irradiated nuclear fuel shipping container), China 1988.
6. Technology and Science Progress Award of Ministry of Aeronautics and Astronautic (Award For research of the stress analysis and design method for reentry vehicle structure), China, 1991.
7. Technology and Science Progress Award of National Natural Science Foundation (Award for research of study of damaged composite structures), China, 2002.

Research Interests:

1. Micro-structural Analysis and Design of Composite Materials.


2. Technical Mechanics of Composite Materials during Forming Process.


3. Environmental and Hydrothermal Effects of Composite Material.


4. Structural Analysis of Complicated Laminated Composite Structures.


5. Visco-elasticity and Viscoplasticity of Composite Materials.


6 Analysis and control for smart materials and structures.


7. Damage and Fracture Mechanism of Composite Material and Structures.

Projects:

Main Research Grants and Contracts (1983-present):



1. Large Deformation Analysis of Solid Fuel Rocket Generator;


Supported by the Research Institute of Aeronautic Industrial Ministry in China ; 1983--1985;


2. Impact Analysis of Irradiated Nuclear Fuel Shipping Container;


Supported by National Nuclear Energy Industrial Ministry in China ; 1984-1987;


3. The Strength and Global and Local Stability of Iso-grid Stiffened Composite Shells for New Type of Rocket Vessel;


Supported by the Research Institute of Aerospace Engineering in China ; 1986-1990;


4. Analysis Theory and Method for Structures of Advanced Materials;


Supported by Natural Science Foundation in China ; 1985-1988;


5. Nonlinear Analysis Theory and Method for Composite Fighter Structures;


Supported by Natural Science Foundation in China ; 1989-1991;


6. On Contract Stress Analysis for Composite Bonded Structures;


Supported by the Research Institute of Aeronautical Engineering and Natural Science Foundation in China ; 1987-1990;


7. On Environmental and Hydrothermal Effects of Composite Material and Structures;


Supported by Design Institute of Aeronautical Engineering in China ; 1989-1991;


8. Transient Temperature and Induced Interlaminar Stresses of Composite Materials;


Supported by the Research Institute Aeronautical Engineering in China ; 1989-1991;


9. On Thermo-forming of Composite Structures;


Supported by the Research Institute at Aeronautical Engineering in China ; 1991-1992;


10. Computer Simulation and Testing Investigation of Fatigue Processes and Predication of Lifetime for Composite Automobile Vehicle;


Supported by an Automobile Manufacture Company of China ; 1991-1992;


11. Fatigue Study of Composite Bolted Joint Structure;


Supported by Design and Manufacture Institute of Aeronautical Structure; 1992-1994;


12. Study on Design Method of Composite Bounded Structures for New Type of Rocket Vessel; Supported by Research Institute of Astronautics Engineering Materials in China , 1992-1994


13. Structural and Damage Analysis of Composite Ship Vehicle


Supported by National Defense Research Foundation in China , 1992-1996.


14. Analysis and Design Methods for Ship Structures Made of Advanced Engineering Materials; Supported by National Defense Science Foundation in China ; 1993-1995;


15. Damage Tolerance Design Method for Aeronautical Engineering Structures;


Supported by Design institute of Aeronautical Engineering Structure China ; 1993-1995;


16. The Effect of Microstructures, Interface and Defect of Metal Matrix Composite Materials on Their Nonlinear Overall Behaviour;


Supported by National Science Foundation in China , 1993-1996.


17. Some Problems of Curing Technical Mechanics in Thermal Forming Process of Composite Structures;


Supported by National Science Foundation in China , 1993-1997.


18. Evaluation of Design Critical Strain Values for Aeronautical Material (T300/BM) with Low Energy Impact Damage and Defects under Thermo-Moisture and Aging Environmental Conditions


Supported by Design Institute of Aeronautic Structure; 1994-1995;


19. On Damage, Fracture Mechanism and Micro-Macro Mechanics Theory of Advanced Materials; (Key Project in SINICA)


Supported by National Science Foundation in China ; 1994-1997.


20. Evaluation of Loaded Capability of Damaged Stiffened Composite Laminates after Repair Process.


Supported by Design Institute of Aeronautic Structure; 1995


21. Experimental and Theoretical Study on Loaded Capability of Adhesive-bolted Joint Structure Supported by Technical Research Institute of Aerospace Industrial Ministry; 1997-1998.


22. Evaluation of Pin Loaded Distribution of Fastened Mechanical Joint Structure


Supported by Design Institute of Aeronautic Structure; 1997-1999


23. Residual Strength of Fighter Structure after Low Energy Impact.


Supported by National Natural Science Foundation of China ; 1997-1999.


24. Study on Composite Laminated structures after Low energy Impact,


Supported by National Natural Science Foundation of National Education commission 1997-1999.


25. Study on Structural Analysis of Composite tunnel Structure of Fighter Generator


Supported by Design Institute of Aeronautic Structure.1998-2001


26. Damage Propagation, Failure and Load Capability of Damaged Composite Structures,


Supported by National Natural Science Foundation of China ; 2000-2002.


27. Dynamic Properties of Delaminated Stiffened Composite Shell Structures,


Supported by National Natural Science Foundation of China ; 2003-2005.


28. Optimal Design of Advanced Grid Structures,


Supported by Design Institute of Aeronautic Structure; 2003-2005.


29. Study on Technical Mechanics for Composite High Pressured Tank,


Supported by National Defense Research Foundation in China : 2003-2005.


30. Dynamic Stability of Damaged Composite Structure,


Supported by Design Institute of Aeronautic Structure; 2003-2005.


31. Damage Tolerance Design of Advanced Grid Structures,


Supported by National Natural Science Foundation of China ; 2004-2006.


32. Multi-scale Optimum Design for Light Materials and structures.


Supported by National Basic Research Program of China ; 2006-2009.


33. Multi-scale Analysis of Dynamic Onset and Growth of interfacial damage for Sandwich Composite Structures


Supported by National Natural Science Foundation of China ; 2007-2009.


34. Damage Mechanism, Load Capacity and Optimum Design for Composite Vessel..


Supported by Defense Science Foundation of China ; 2007-2009.


35. Numerical Simulation for Co-curing Technical Process and Soft Die Technique of Advanced Composite Grid Stiffened Structures.


Supported by National Natural Science Foundation of China ; 2008-2010.

Publications:

Published papers in English (1993-2008)


1. Elastoplastic Constitutive Relations of Unidirectional Fiber Composites for Cyclic Loading. Acta Mechanics Solida SINICA, Vol.6, No.1 (1993).


2. Effect of Material Nonlinearity on Thermally Induced Interlaminar Stresses in Composite Laminates. Proceeding of the Asian Pacific Conference on Computational Mechanics, Dec. 11-13 p.1007-1012. (1991).


3. Mixed Finite Element for Interlaminar Stress Computation, Composite Structure, Vo.20, No.3: p.127-136 (1992).


4. A Micromechanical Approach to Plasticity of Metal Matrix Composites Reinforced by Short Fiber. Proc. ICCM9, Madrid, Spain (1993).


5. Self Consistent Finite Element Method: A New Method of Predicting Effective Properties of Inclusion Media. Finite Elements in Analysis and Design, Vol.17, No.4 : p.247-257 (1994).


6. A Self-Consistent Finite Element Approach to the Inclusion Problem. J. of Computational Material Science. Vol.2, No.2 (1994).


7. The Effect of Interface on Overall Average Mechanical Properties and Local Stress Fields of Multi-Phase Medium Materials. J of Computational Material Science. No.4, p. 117-124 (1995).


8. The Effect of Imperfect Interphase on Overall Average Mechanical Properties and Local stress field of Multi-phase Composite Materials. Composites.Vol.26, No.4 (1995).


9. Elasto-plastic Behaviour of Short Fiber Reinforced Metal Matrix Composites. Proc. of ICCM10, Vancouver, B.C., Canada (1995).


10. Fluid-Structure Interaction Vibration and Dynamic Response of Composite Material Ship Structure. Proc. of EPMESC 5 (1995), Macao.


11. A Study of The Deformation Mechanism of Metal Matrix Composites. Proc. of International Conference on New Materials and Processing, Shanghai, China (1995).


12. A Finite Element Analysis of Transient Temperature Fields of Composite Laminates during Thermo-forming Process. Proc. of International Conference on New Materials and Processing , Shanghai, China. (1995).


13. Effects of Microstructure on the Macroscopic Elasto-plastic Properties of Metal Matrix Composites. Acta Mechanica Solida, Vol.9, No.1 (1996).


14. Influences on the Overall Mechanical Behaviour of Composites considering the interfacial Debounding. Proc. of ICAM 96, Beijing, China. (1996).


15. Analysis of Crack-tip Field for Multi-Materials with Interface. Proc. of ICAM 96, Beijing, China. (1996).


16. A Fine Integrations Solving Method on the Thermo-Elastic Problem of Composite Laminates. Proc. of ICAM 96, Beijing, China. (1996).


17. A Study on the Elastic Axially Tensile Properties of Metal Matrix Composites with Fiber End Debonding. J. of Appl. Mech. and Math. Vol.17. No.8: p.723 (1996).


18. A Study of Elasto-plastic Tensile Behaviour of Metal Matrix Composites Computational Mechanics. A Book Dedicated of Professor Qian Lingxie in Celebration of 80thAnniversary of His Birthday (1996).


19. Relations of the Mesoscopic Damage Mechanisms with the Macroscopic Properties of Metal Matrix Composites. Proc. of ICCM - 11, Gold Coast, Australia (1997).


20. Characteristics of the Elaso-plastic Deformation of Metal Matrix Composites. Scripta Materialia (1997).


21. Process-Induced Stress Analysis of Composite Laminates Using Semi- Analytical Hamiltonian Method. J of Composite Structure. Vol.41, No.1 :p.49-55(1998).


22. Fracture Analysis for Multi-material System with an Interface Crack Computational Materials. Science. No.12: p.1-8 (1998).


23. High Temperature Creep Behaviour of Al-Fe-V-Si Alloy and SiC Whisker Reinforced Al-Fe-V-Si Composite. J. of Material Science, Vol.33, No.23: p5643-5652 (1998).


24. High Temperature Creep Behaviour of Si3N4 Whiskers Reinforced Al-Fe-V-Si Composite. J. of Materials Science and Technology. Vol.14, No.6: p.527-532 (1998).


25. Creep Fracture of SiC Particulate Reinforced Al-C-O Composite. Materials Science and Technology (1998).


26. Creep Behavior in an Al-Fe-V-Si Alloy and SiC whisker-reinforced Al-Fe-V-Si Composite. J. of Materials Science, Vol.33, No.23: p.5643-3652, (1998).


27. Effect of Interphase Strength on the Damage Modes and Mechanical Behaviour of Metal Matrix Composites. Composites. Vol.30, No.3: p.257-266 (1999).


28. High Temperature Creep Deformation of an Al-Fe-V-Si Alloy. Material Science and Engineering. Vol.A259, No.1: p.25-33 (1999).


29. High Temperature Creep Deformation of A11B40O33 Whisker-Reinforced 8009 Al Composite, Materials Science and Engineering, Vol.265, No.1-2: p.63-70 (1999).


30. High Temperature Creep Behaviour of Al8B4O33 Whiskers Reinforced 8099AL Composite. Materials Science and Technology. Vol.265, No.1, p.63-70 (1999).


31. Mesomechanical Study of the Characteristics of Elastoplastic Tensile Deformation of Metal Matrix Composites. J. of Dalian University of Technology .Vol.39, No.2: p.144-149 (1999).


32. Analysis of Fracture Mechanics of Skew Crack near Interface of Bimaterials, Proc. of ICCM12, p:823-830, extended abstract , p:289, Paris (1999).


33. The Effect of Si3N4 Wiskers on the High Temperature Creep Behavior of an Al-Fe-V-Si Alloy Matrix Composite. Composites Science and Technology. Vol.59, No.5 : p.769-733 (1999).


34. Residual Compressive Strength of Laminated Plates with Delamination. Proc. of ICCS10 p.102, Melbourne, Australia, Composite Structure, Vol.47, No.1-4:p. 711-718 (1999).


35. Natural Frequencies, Modes and Damping Behavior of Delaminated Composite Plates., J of Shipbuilding Structural Mechanics, Vol.3, No.6:p.36-47 (1999).


36. Effect of Si3N4 Whiskers on the High Temperature Creep Behavior of an Al-Fe-V-Si Alloy Matrix Composite. Composite Science and Technology, Vo.59, No.5: p.769-773 (1999).


37. High Temperature Creep Deformation of Al18B40O33 Whisker-Reinforced 8009 Al Composite Materials Science and Engineering A-Structural Materials Properties Microstructure and Processing. Composite Science and Technology, Vol.265, No.1-2:p.63-70 (1999).


38. Dynamic Behavior of Laminated Composite Plates with Delamination. J of Shipbuilding Structural Mechanics. Vol.4, No.6: p28-38 (2000).


39. Progressive Failure Analysis of Laminated Plates with Delamination. J of Reinforced Plastics and Composites, 20(16): p.1370~1389 (2001).


40. On fracture behavior of crack body with a fine short fiber. Proc. of ICCM13, p.269 (2001)


41. Nonlinear buckling behavior of damaged composite sandwich plates considering effect of temperature dependent thermal and mechanical properties. Acta Mechanica Solida SINICA (English version). Vol.22, No.3: p.18~24 (2001).


42. Postbuckling behavior of composite sandwich plate containing interfacial debonding. Proceeding of the 13th International Conference on Composite Materials (ICCM13), Beijing, China, June 2001, Scientific and Technical Documents Publishing House, ID1054, p.388~-392 (2001).


43. On fracture behavior of crack body with a fine short fiber. Proceeding of the 13th International Conference on Composite Materials (ICCM13), Beijing, China, June 2001, Scientific and Technical Documents Publishing House, p.269 (2001).


44. The postbuckling behavior of face\core debonded composite sandwich plate considering matrix cracks and contact effect. Proceeding of the 11th International conference for Composite Structures (ICCS11), Melbourne, Australia, Nov. 2001, ID 69. p. 122 (2001).


45. Conservative Law and Application of J integral in Multi-materials. Applied Mathematics and Mechanics (English version), Vol.22, No.10: p.1216-1224 (2001).


46. Progressive Failure Analysis of Laminated Plates with Delamination, J of Reinforced Plastics and Composites. Vol.20 , No.16: p.1370~1389 (2001).


47. The postbuckling behavior of face\core debonded composite sandwich plate considering matrix cracks and contact effect. Composite structures. Vol.57, No.1-4: p.305-313 (2002).


48. Numerical simulation of delamination growth for stiffened composite plates. Proceeding of the 5th China-Japan-us Joint Conference on Composite Structures (CJAJCC-5), Kunming, China, Aug.2002, p. 21~35 (Keynote Report).


49. Frequency Response Functions Analysis of Composite Laminated Plate with Delamination. J of Ship Mechanics, Vol.6, No.3: p.83-93 (2002)


50. Study on Postbuckling Behavior of Delaminated Stiffened Composite Plates. Proceeding of 14th International Conference on Composite Materials, 7,2003, Santiago, USA (2003).


51. Study on Failure Process of Delaminated Stiffened Composite Plates under Compression. Acta Mechanica Sinica (English Version), Vol.19, No.4: p.289-299 (2003).


52. Dynamic Behavior of Delaminated Plates Considering Progressive Failure Process. The 12th Int. Conference on Composite Structures, Melbourne, Australia, 19/11-21/11 2003.


53. Dynamic Response Behavior of Stiffened Delaminated Plates Considering Failure. Proceeding of the 4th Asian-Australasian Conference on Composite Materials, p.337-342, Sydney, Australia, 2004, 7. 6- 9.


54. Numerical Anslysis of Delamination Growth for Stiffened Composite Laminated Plates. Applied Mathematics and Mechanics(English Version), Vol.25, No.4: p.405-417 (2004).


55. Dynamic Loading Capacity of Stiffened Delaminated Plates. Proceeding of International Conference of Computational Mechanics-2004, Beijing, China. Sept. (2004).


56. Study on Technical Mechanics of Curing Process for Filament Wound Pressure Vessel with Metal Liner. Proceding of CJAJCC-6, p.26-30 (2004).


57. Dynamic Behavior of Delaminated Plates Considering Progressive Failure Process. Compoasite Structure, Vol.66:p.459-466 (2004).


58. Nonlinear Dynamic Behavior and Load Capacity for Stiffened Composite Laminates after Low Energy Impact. The First Korea-China Joint Workshop on Composite Materials, (Invitation speech), Korea Advanced Institute of Science and Technology, Guseong-dong, Yuseong-gu, Dec.5- 8 (2004).


59. The dynamic crack propagation in the interface between elastic and viscoelastic infinite length strip. 4th International Conference on Fracture of polymers, Composites and Adhesives. (ICMF-4) 2005, 7, Switzerland.


60. Damage characteristic of composite filament wound vessel with metal liner under low velocity impact. The proceedings of the academic conference of China Association for Science and Technology, 2005.


61. The Dynamic Fracture Roughness Study of Mode II Crack. The proceedings of the Academic conference of China Association for Science and Technology, 2005.


62. Dynamic Characteristics of Composite Sandwich Plate with multi-kind of Damages. The proceedings of the academic conference of China Association for Science and Technology 2005..


63. Effect of Nonlinear Contact upon Natural Frequency of Delaminated Stiffened Composite Plate, Proceeding of ICCM15, Durban, South Africa (2005��6).


64. Interface Crack-tip Field between Elastic and VIisco-elastic Materials in an Infinite Length Strip under Impact Load. Proceeding of ICCM15,, Durban, South Africa (2005��6.).


65. Prediction of Composite Filament Wound Vessel with metal liner under Low velocity of Impact. Composite Structure, Vol.75 (1-4):p.387-392(2006).


66. Effect of Nonlinear Contact upon Natural Frequency of Delaminated Stiffened Composite Plate, Composite Structure, Vol.76:p.28-33(2006).


67. Nonlinear Dynamic Characteristics of Stiffened Composite Plates with Delamination. China-Japan Seminar on Composites (Key Speech), Dalian (2005,9).


68. Numerical investigation of postbuckling behavior and delamination growth for advanced grid stiffened plate considering progressive failure. Proc. of ICCS13, Melbourne, Australia, 2005.11,


69. The dynamic Fracture Analysis of the sandwich strip under Impact Load. Proc. of ICCS13, Melbourne, Australia, 2005,11��


70. Random Vibration of Composite Structures with an Attached Frequency-Dependent Damping Layer. Composites, part-B. (press on line).


71. The Dynamic Fracture Analysis of the Adhesively Bonded Materials Under Shear Loading. (ID No:207-C).ACCM5, Hong Gong,11,2006. Key Engineering Materials, Vol.334-335:p.141-144 (2007)


72. Curing Process-Induced Stress Analysis of Composite Wound Shell Structure with Metal Liner Using Semi-Analytical Hamiltonian Method, Key Engineering Materials, Vol.334-335:p.49-52 (2007)


73. Mechanics Characteristics and Failure Criteria of Concrete Confined by Lateral Stress After Suffereing Cycles of Freezing and Thawing in Seawater., Key Engineering Materials, Vol.334-335:p.245-248 (2007)


74. Numerical investigation of Post buckling Strength and Failure Modes in advanded grid stiffened structure under Thermal-mechanical Loads Key Engineering Materials, Vol.334-335:p.613-616 (2007)


75. Application of a Continuum Constitutive Model for Fracture Analysis of Metallic Foam with Element-Free Galerkin Method. ICNMV, Shanghai, 2007


76. Analysis of Nonlinear Dynamic Stability for Piezoelectric Composite Plate Including Delaminations, ICCM16, Kyoto, Japan, 2007,8


77. The Dynamic Stress Intensity Factor Analysis of Adhesive Bonded Material Interface with Damage under Normal Impact Loading, ICCM16, Kyoto, Japan, 2007,8


78. Three Dimensional Simulation for Dynamic Failure of Compound Structure with Aluminum Foam under Ballistic Impact, ICNMV, Shanghai, 2007,8


79. Dynamic Failure Analysis of Aluminum Foam Sandwich Structure Using 3D Material Point Method��SIF,2008, Perth, Australia,2008,5.


80. Prediction of Progressive Failure Process for Advanced Grid Stiffened Composite Plates/Shells, ICCS14, Melbourne, Australia, 2007,11


81. The Dynamic Fracture Analysis of Adhesively Bonded Material under Normal Loading, The 5th International Conference on Fracture of Polymers, Composites and Adhesives, Les Diablerets, Switzerland. 2008,9


82. The Effect of Interface Debonding between Piezoelectric Layers and Laminates on Nonlinear Dynamic Stability of Damaged Composite Laminates, ICCS14, Melbourne, Australia, 2007,11.


83. Interfacial Delamination Growth in Visco-Elastic Adhesive Layer of Foam Core Sandwich Beams , 22nd International Congress of Theoretical and Applied Mechanics, Adelaide, Australia, 2008,8


84. Stochastic Elasto-plastic Fracture Analysis of Aluminum Foam Using Cohesive Zone Model, WCCM VIII - ECCOMAS 2008 , Venice , Italy, 2008,7.


85. Nonlinear Dynamic Stability Analysis for Piezoelectric Composite Laminates with Debonding damage, submitted to Smart Materials and Structures (press on line) ,2008


86. A stiffened plate element model for advanced grid stiffened composite plates/shells, submitted to Computer and Structures (press on line), 2008


87. A stiffened plate element model for advanced grid stiffened composite plates/shells, Accepted by J of Composite Materials, 2008


88. The Dynamic Fracture Analysis of Adhesively Bonded Material under Normal Loading, Accepted by Acta Mechanica SINICA(2008,6,8)


89. Stochastic Elasto-plastic Fracture Analysis of Aluminum Foam, Accepted by Acta Mechanica Solida.(2008,6)


90. Prediction of Progressive Failure Process for Advanced Grid Stiffened Composite Plates/Shells, Composite Structure, Vol.86(1-4):p.45-54(2008)


91. Delamination Onset of Foam Core Sandwich Beams with Visco-elastic Adhesive Interfacial Layer, Accepted by ICF12, Ottawa ,Canada, 2009,6


92. The Dynamic Stress Intensity Factor Analysis of Adhesively Bonded Materials Interface Crack with Damage under Shear Loading, J Applied Mechanics and Mathematics,Vol.29(11):p.1517-1526(2008)


93. The Effect of Viscoelastic Interface Crack upon Dynamic Fracture behavior of Foam Core Composite Sandwich, Accepted by ICCM17, Edinburgh, UK, 2009,6

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