1. �Reinforced Concrete�Composites�Cohesive�Springs�Contact � Modeling in ABAQUS
Weidong Wu
Department of Civil Engineering
The University of Mississippi
2. 2 In order to use ABAQUS FEA background
Know what you will model
Create your model correctly
Always refer to the manual whenever you are not sure
Solve difficulties through .dat .msg .sta files
3. 3 How to model composites Two ways:
-Composite shell sections
when your model is simple
-Composites layup
Real-world application, may handle large
number of plies
4. 4
Composites Modeling
5. 5 Composite shell sections Composed of layers made of different materials in different orientations.
6. 6 Define composite shell in CAE
7. 7 Composites layup
8. 8 Define composite layup in CAE
9. 9 In Preparation… How to model RC
10. 10
Cohesive Modeling
11. 11 Applications Modeling adhesives, bonded interfaces, and gaskets
Constitutive response types
Continuum based
A traction-separation description of the interface
A uniaxial stress state-gasket /small adhesive patches
12. 12 Creating a cohesive layer
13. 13 Creating a cohesive layer
14. 14 Cohesive Elements COH2D4
COH3D6
COH3D8
8-node three-dimensional
cohesive element
15. 15 Define Interaction Cohesive zone should have more refined mesh
16. 16 If you want to model the cohesive layer using a mesh that is finer than the adjacent bulk material mesh, the cohesive layer should be generated as a separate mesh and tied to the bulk material using tie constraints
17. 17 Continuum-based modeling A glue-like material has a finite thickness
Using conventional material models
When used with conventional material models, cohesive elements use true stress and strain measures
The cohesive layer is subjected to only through-thickness strain, and two transverse shear strain components
All standard output variables in ABAQUS are available for cohesive elements that are used with conventional material models
* COHESIVE SECTION, RESPONSE=CONTINUUM
Modeling of damage with cohesive elements can be carried out only in Abaqus/Explicit
18. 18 Modeling of damage with cohesive elements Progressive damage and failure for
-Ductile metals
-Fiber-reinforced composites
19. 19 Traction-separation-based modeling The intermediate glue material is very thin and may be considered to be of zero thickness
Model the delamination at interfaces in composites
Cohesive behavior defined directly in terms of a traction-separation law
t-The nominal traction stress vector k-is the stiffness that relates the nominal stress S to the displacement
When used with a material model that is based on a traction-separation description, cohesive elements use nominal stress and strain measures
*COHESIVE SECTION, RESPONSE=TRACTION SEPARATION
20. 20 A uniaxial stress state-gasket modeling Fully nonlinear (can be used with finite strains and rotations);
Can have mass in a dynamic analysis
Available in both ABAQUS/Standard and ABAQUS/Explicit
21. 21
Contact Modeling
In Preparation…
22. 22 Introduction Surface based or contact element based
Interaction between surfaces
-Normal
-Tangential: sliding friction
Contact Property: to define contact interaction models:
-Normal hard
-Tangential: finite or small sliding
23. 23 Master and slave surface Only the master surface can penetrate the slave surface
the slave surface should be the more finely meshed surface
if the mesh densities are similar, the slave surface should be the surface with the softer underlying material
Element selection�it is better, in general, to use first-order elements for those parts of a model that will form a slave surface
24. 24 If you choose the Finite sliding formulation and the Surface to surface discretization method, the contact interaction property that you select cannot specify a “hard” contact pressure-overclosure relationship
25. 25
What You May Always Need to Know
26. 26 Job Execution Control Abaqus Job suspend, resume, and terminate
abaqus {suspend | resume | terminate} job=job-name�
abaqus terminate job=input_file
27. 27 Automatic stabilization of unstable static problems Nonlinear static problems can be unstable
Causes:
geometrical nature, such as buckling,
material nature, such as material softening
Rigid body motion
Solution:
automatic addition of volume-proportional damping to the model to obtain a smooth motion
28. 28 How to decide the damping factor Automatic stabilization of static problems with a constant damping factor
1. Based on the dissipated energy fraction,default=0.0002
2. Directly specifying the damping factor
3. Propagating the damping factors from the immediately preceding general step into the current step
29. 29 Common Difficulties Warning message: Zero pivot and numerical singularity
Causes:
1. Nodes may be overconstrained in a model
2. The model might be insufficiently constrained, rigid body motion occurs.
TOO MANY ATTEMPTS MADE FOR THIS INCREMENT
Causes: so many reasons
1.Cannot reach convergence
