Crack propagation on highly heterogeneous composite materials Miguel Patrício
Motivation Macroscopic view : - a (foot)ball (round object) Microscopic view : - thick round-ish skin - fissures and cracks - collection of molecules - simple (?) problem - not so accurate -complicated problem - accurate
Motivation Macroscopic view : - a (foot)ball (round object) Microscopic view : - thick round-ish skin - fissures and cracks - collection of molecules Best of both worlds???
Model crack propagation Macroscopic view Microscopic view Matrix Inclusions
Problem formulation “Determine how (and whether) a given crack will propagate.” - Where to start?
Problem formulation “Determine how (and whether) a given crack will propagate.” - What makes the problem complicated?
Simplify “Determine how (and whether) a given crack will propagate.” - Microstructure - Crack propagation (how) ??? Assume: Static crack
Starting point - Static crack is part of the geometry “Determine whether a given crack will propagate in a homogenised medium.” What homogenised medium?
Microstructure to macrostructure ? Macrostructure Microstructure
Microstructure to macrostructure Homogenisation Macrostructure Microstructure
Homogenisation Macrostructure Microstructure Assume: There exists a RVE
Mathematical homogenisation Macrostructure Microstructure Assume: There exists a RVE Periodical distribution
Mathematical homogenisation Microstructure Linear elastic materials: Hook’s law Elasticity tensors
Mathematical homogenisation Microstructure averaging procedure ( and )
Example Young’s modulus Poisson’s ratio Young’s modulus Poisson’s ratio
Homogenised solution Example Exact solution Horizontal component of the displacements
Mathematical homogenisation - “Sort of” averaging procedure - Loss of accuracy - Alternatives do exist (heterogeneous multiscale method, multiscale finite elements…) - Periodic structures (but not only) - Simplifies problem greatly
Crack propagation (homogeneous case) Assume: pre-existent static crack homogeneous material
Crack propagation (homogeneous case) Question: will the crack propagate?
Crack propagation (homogeneous case) Question: will the crack propagate? (one possible) Answer: look at the SIFs Crack tip
How to compute the SIFs? Crack propagation (homogeneous case) Question: will the crack propagate? Why look at the SIFs? - Solve elasticity problem (FEM) - Determine the stresses - Crack will propagate when - Direction of crack propagation - Compute + how?
Step by step - Pull the plate - Compute displacements and stresses - Check propagation criterion compute SIFs - If the criterion is met, compute the direction of propagation Increment crack (update geometry) -What length of crack increment?
Example - FEM discretisation (ABAQUS) - Crack modelled as a closed line - Open crack (after loading):
Example
Crack propagation - Homogeneous media - how and whether the crack will propagate - Pre-existing crack - Incrementation approach - What about heterogeneous media?
Crack propagation - What about heterogeneous media? Idea: employ homogenisation and apply same procedure Bad
Local effects
Crack tip in material ACrack tip in material B Crack tip in homogenised material
Crack propagation - What about heterogeneous media? Idea: employ homogenisation and apply same procedure Bad Because the local structure may not be neglected when the SIFs are computed
FEM will not work!!! Crack propagation (composite material) Assume: pre-existent static crack composite material
Domain decomposition Assume: pre-existent static crack composite material - Partition computational domain - Instead of one heavy problem, solve many light problems
- Allows for a complex problem to be divided into several subproblems Domain decomposition - Schwarz procedure dates back to the XIX century - Parallelization may be implemented - Deal with different problems where different phenomena exists - May overlap or not
Homogenisable Hybrid Approach Homogenisable Schwarz (overlapping) Homogenisation Crack
Hybrid approach for the SIF Layered material Crack
Hybrid approach for the SIF Crack - Employ homogenisation far away from the crack - Use Schwarz overlapping scheme
- Uses homogenisation where possible; resolves heterogeneous problem where necessary Hybrid approach - Combines homogenisation and domain decomposition - More than one micro region may be considered - Accuracy depends on the accuracy of homogenisation or, on other words, on how much the material is homogenisable in the macro region - Why not domain decomposition? - Why not homogenisation?
- Domain decomposition divides problem in subproblems Summary - Homogenisation yields macroscopic equations - Fracture propagation can be implemented by incrementing the crack - Hybrid approach combines these two techniques
Main open question Assume: pre-existent static crack composite layered material - What happens when the crack hits the interface between the layers?
A few references
Model crack propagation Macroscopic view Microscopic view Linear elastic homogeneous plate Plate composed by linear elastic homogeneous constituents Matrix Inclusions Layered material ? Other micro- structure