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17 results on '"Zhi-Jun Han"'

1. The Influence of First Order Shear Deformation on Dynamic Buckling of Composite Bar

Author

Zhi Jun Han, Guo Yun Lu, Long Fei Wang, and Xiao Peng Yan

Subjects
Physics, Basis (linear algebra), Buckling, business.industry, Bar (music), Composite number, Magnitude (mathematics), General Medicine, Structural engineering, Boundary value problem, business, First order, Linear equation
Abstract

Taking stress wave propagation into account, the governing equations of composite bar with the clamped-fixed boundary conditions considering FSDT (first order shear deformation theory) are derived on the basis of Reddy’ theory and solved by the variable-separated method. The analytic expression of the critical buckling load is obtained basing on the characteristics of homogeneous linear equations having nonzero-solution. The results of the theoretical study and the numerical calculation indicate that FSDT has influence on dynamic buckling of composite bar, and the critical buckling load is small when FSDT is considered. They also show that the magnitude of effect taken by FSDT is small when the layer angle is big.

Published
2015
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2. Research on the Dynamic Buckling of Composite Laminated Plates with One Edge Fixed and Three Edges Simply-Supported

Author

Nan Li, Zhi Jun Han, and Guo Yun Lu

Subjects
Materials science, Critical load, business.industry, Composite number, Mode (statistics), General Medicine, Structural engineering, Moment of inertia, Edge (geometry), Symmetry (physics), symbols.namesake, Buckling, symbols, Hamilton's principle, business
Abstract

Taking into account the effects of stress wave and the moment of inertia, the governing equations of composite laminated plate under the axial step load are derived by using Hamilton principle. Based on Variable Separation Method, the analytical expression of the critical dynamic buckling load for symmetry composite laminated plates with one edge fixed and three edges simply-supported can be deduced by considering the characteristics of the buckling solution, and the buckling mode is also acquired. Using MATLAB software, the relationship between the critical load and length can be obtained. The influences of different layer parameters and the order of the mode on the dynamic buckling are discussed.

Published
2015
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3. Dynamic Buckling of Elastic Cylindrical Shells under Axial Step Load

Author

Zhi Jun Han, Guo Yun Lu, and Jia Qun Wang

Subjects
Physics, Critical load, business.industry, Computation, Shell (structure), General Medicine, Structural engineering, Mechanics, Buckling, Boundary value problem, business, MATLAB, Coefficient matrix, Geometric and material buckling, computer, computer.programming_language
Abstract

Considering the effect of stress wave, the dynamic buckling of circular cylindrical shells under an axial step load is discussed using the classical shell theories and the state-space technique in the paper. Based on the Hamilton’s principle, the dynamic buckling governing equations of shells are derived and solved with the Rayleigh-Ritz method. If the linear homogeneous equations have a non-trivial solution, the determinant of the coefficient matrix must be equal to zero, so the expression of the critical load on the dynamic buckling is got. The relationship between the critical load and length is obtained by using MATLAB software. The influences of boundary conditions, thickness, the number of circumferential waves and the number of axial waves on the dynamic buckling loads are discussed based on numerical computation.

Published
2015
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4. Computer Simulation on the Dynamic Buckling of Initial-Defect Plates under Axial Step Load

Author

Zhi Jun Han, Guo Yun Lu, and Yu Peng Zong

Subjects
Surface (mathematics), Engineering, Amplitude, Buckling, business.industry, General Engineering, Point (geometry), Boundary value problem, Structural engineering, business, Bifurcation, Coincidence
Abstract

Computer simulation on the dynamic buckling of different forms of initial-defect and different boundary conditions plates under axial impact load was carried out by using ABAQUS /Standard.The strain-time history curve of the symmetric point of upper and lower surface is give,they are coincidence before the buckling and suddenly separate when the buckling occur which is called be bifurcation,and the critical buckling time is also acquired. The results indicate that the influence of different initial-defect locations and amplitudes on the dynamic buckling is very great.

Published
2015
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5. The Computer Simulation of the Dynamic Buckling of Cyclindrical Shells under Pulse Load

Author

Yu Liu, Xiao Jun Wang, Zhi Jun Han, and Guo Yun Lu

Subjects
Engineering, Stress wave, Amplitude, Time history, Buckling, business.industry, Pulse load, General Engineering, Shell (structure), Rectangle, Structural engineering, business, Bifurcation
Abstract

The computer simulation of the dynamic buckling on the cylindrical shell subjected to pulse load was carried out by ABAQUS/Expliect. The value of the rectangle and triangle pulse load is the same and the shape is different, and they are applied on the impact end of the cyclindrical shell. The influence of the load amplitude, the shape of load and the effect of the stress wave on the critical buckling time of cylindrical shell were discussed. The radial displacement curve was obtained which indicates that stress wave propagate along the length of the cylindrical shells, and the curve of strain time history is also acquired which is used to judge bifurcation and give the critical time.

Published
2015
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6. Dynamic Buckling of Bars under Step Load Based on Semi-Analytic Method

Author

Hui Che, Zhi Jun Han, Guo Yun Lu, and Qiang Yang

Subjects
Critical load, Materials science, business.industry, Quantitative Biology::Tissues and Organs, media_common.quotation_subject, General Engineering, Structural engineering, Inertia, Critical length, Quantitative Biology::Subcellular Processes, Condensed Matter::Soft Condensed Matter, Stress wave, Buckling, Analytic element method, Boundary value problem, Deformation (engineering), business, media_common
Abstract

Dynamic buckling of bars under step load was studied by considering the stress wave effect. Straight bars without axial inertia were taken as an example when deformation was small. The buckling solution satisfying the boundary conditions was given by the semi-analytic method. The buckling solution was substituted to the dynamic buckling governing equations. The unified expression of dynamic buckling critical load was obtained by discussing the character of the solution. The dynamic buckling critical load was obtained by calculating the value of when the stress wave propagated to the critical length . The value of dynamic buckling load was 2.5 times the one’s of static buckling load with corresponding equivalent length.

Published
2014
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10. Computer Simulation of Static Buckling of Double-Layer Portal Frame

Author

Zhi Fang Liu, Zhi Jun Han, Zuo Yi Kang, and Guo Yun Lu

Subjects
Engineering, Buckling, business.industry, Portal frame, Mode (statistics), General Medicine, Structural engineering, business, Roof
Abstract

The buckling of no-way double-layer portal frame that column is fixed is simulated by using ANSYS. Through analyzing the portal frame subjected to different loads on the roof of the structure that are uniform load, trapezoidal load and triangular load, the critical buckling load of the double-layer portal frame and buckling mode are obtained. The regular between the critical buckling load and the form of the load on the roof can be acquired by the analysis of the results, which can be used as a reference for engineering application.

Published
2011
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11. Dynamic Buckling of Composite Bars Subject to Axial Impact

Author

Zhi Jun Han, Guo Yun Lu, Chao Kang, and Shan Yuan Zhang

Subjects
Impact velocity, Materials science, Buckling, business.industry, Composite number, General Medicine, Fiber, Structural engineering, Rigid body, business, Critical ionization velocity
Abstract

The dynamic buckling of composite bars subject to axial rigid body impact are simulated using the finite-element software ABAQUS6.8. The critical velocity and the bifurcate time are obtained by stain-time curve and effects of fiber angle and impact velocity on dynamic buckling behavior of composite bars are also investigated. The results indicate that the ply angle and impact velocity have an influence on dynamic buckling of composite bars.

Published
2010
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12. Compressive Buckling of Composite Plates with a Delamination

Author

Zhi Jun Han, Chao Kang, Guo Yun Lu, and Shan Yuan Zhang

Subjects
Fiber pull-out, Materials science, Buckling, Composite plate, business.industry, Composite number, Delamination, General Engineering, Structural engineering, Composite material, business
Abstract

Compressive buckling of laminate plates with a delamination are simulated using ABAQUS 6.8 software. Effects of sizes, positions, asymmetric and shapes of delamination on the compressive buckling are investigated without the consideration of delamination growth and contact. The results indicate the sizes, positions, asymmetric and shapes of delamination have an important influence on compressive buckling.

Published
2010
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13. A study on the impact response of liquid-filled cylindrical shells

Author

Shanyuan Zhang, Zhi Jun Han, J.P. Lei, and Guoyun Lu

Subjects
Hydroelasticity, Materials science, business.industry, Quantitative Biology::Tissues and Organs, Mechanical Engineering, Rotational symmetry, Internal pressure, Building and Construction, Mechanics, Structural engineering, Strength of materials, law.invention, Condensed Matter::Soft Condensed Matter, Physics::Fluid Dynamics, Buckling, law, Hammer, Buckle, Axial symmetry, business, Civil and Structural Engineering
Abstract

The axial impact buckling of thin metallic cylindrical shells fully filled with water was studied through impact experiments and numerical simulations. Low velocity impact tests were carried out by DHR-9401 drop hammer rig. The experimental results indicate that quite high internal hydrodynamic pressure occurs inside the shell during the impact process. Under the combined action of high internal pressure and axial compression the thin-walled shells buckle plastically and the buckling modes take on regular and axisymmetric wrinkles. Under the joint action of the high internal pressure and the axial compression plastic buckling take place easily on the thin-walled shells and buckling modes take on regular and axisymmetric wrinkles. These results of the tests were used to validate a numerical model. The validated model was used in a parametric study of impacted specimens and these included variations in the shell wall thickness, material strength, length of the specimen and velocity of impact.

Published
2009
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15. Experimental Studies on the Impact Buckling of Bars and the Effect of Stress Wave

Author

Shan Yuan Zhang, Rui Wang, and Zhi Jun Han

Subjects
Materials science, Bar (music), business.industry, Mechanical Engineering, Structural engineering, Lateral velocity, Stress wave, Buckling, Mechanics of Materials, Axial strain, Cylinder stress, General Materials Science, Boundary value problem, business, Bifurcation
Abstract

The experimental studies on the dynamic buckling of the perfect bars with three kinds of lengths under impulsive axial compression were completed and the boundary condition of clamped-fixed was realized firstly in present studies. The time-history curves of axial strain of bars under different impact velocity were recorded. According to the magnitudes of the axial strain and bifurcate time, the quantitative relation of dynamic buckling load and critical bifurcate length are achieved; according to the curves recorded, the lateral velocity of bars are computed also. The experimental results show that the dynamic buckling load of the bar is distinctly greater than the static one, the front of stress wave can be regarded as fixed and the effect of the axial stress wave in the dynamic buckling of bar must be considered.

Published
2006
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16. Dynamic buckling of elastic-plastic column impacted by rigid body

Author

Guo-qiang Cheng, Zhi-jun Han, Shan-yuan Zhang, and Hongwei Ma

Subjects
Power series, Partial differential equation, Applied Mathematics, Mechanical Engineering, Computation, Modulus, Mechanics, Rigid body, Critical ionization velocity, Classical mechanics, Buckling, Mechanics of Materials, Hardening (metallurgy), Mathematics
Abstract

The dynamic buckling of an elastic-plastic column subjected to an axial impact by a rigid body was discussed by using the energy law. The traveling process of elastic-plastic waves under impact action was analyzed by characteristics method. The equation of lateral disturbance used to analyze the problem was developed by taking into account the effect of elastic-plastic stress wave. The power series solution of this problem has been the power series approach. The buckling criterion of this problem was proposed by analyzing the characteristics of the solution. The relationship among critical velocity and impact mass, critical buckling length, hardening modulus was given by using theoretical analysis and numerical computation.

Published
2006
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