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Probabilistic and dynamic contact and fracture models for
quasi-brittle fracture
Reza Abedi
Mechanical, Aerospace & Biomedical Engineering
University of Tennessee Knoxville / Space Institute
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Integrated Fracture/Contact model
Mesoscopic interface subdivisions
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Riemann problem set-up
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Riemann solutions
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Numerical verification:
Identical bars
Unlike other solutions,
SDG results are not overly
damped and are free of
numerical oscillations and
overshoot / undershoot5
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Brake simulation
Contact mode transitions (high slip velocity)
Color: strain energy; Height: velocity
click to play movie
YouTube link
Depending on sliding velocity there are different mode transitions:
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A rate-dependent interfacial damage modelStructural
Health Monitoring
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Interfacial rate-dependent damage
model
Fineberg & Marder 1999
Conical (parabolic) marking on the crack surface
Ravi-Chandar, Knauss 1984
Motivated by mesoscale features:
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Rate-dependent damage model:
RegularizationD interfacial damage parameter
Relaxation time is the maximum damage rate:
Recently a second term (kinematic-based term) is added
to damage evolution equation.9
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Rate-dependent damage model:
Static damage
New effective stresses are used
recently that beside being realistic for
tensile dominant fracture problems
work for fracture in compressive
mode.
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Rate effect:
influence of loading rate and k
𝑘 = 1
Both terms are equally important
𝑡/ ǁ𝜏
ሶ𝜔
ǁ𝜏
Increases loading rate:
1. Increases maximum stress
2. Increase or keep almost constant displacement jump at full damage
3. Increase or keep almost constant time at full damage
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Influence of loading rate and k on
fracture energy
Regardless of how values are normalized
(w.r.t. stress scale 𝜏𝑠or velocity scale 𝜏𝑣):
1. At higher loading rates fracture energy increases.
2. At loading rates fracture energy is insensitive to
loading rate.12
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Combination of contact and fracture models Health
Monitoring
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Contact/damage examples
Color: log(strain energy); Height: velocity
click to play movieYouTube link
cyclic loading for a stiff circular inclusion
with an initial defect
Mode I: cyclic loading
YouTube link14
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Computational Fracture Mechanics:SDG methods powerful adaptive operations in spacetime align element
boundaries with any crack propagation direction.
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Solution-dependent crack path
Element boundaries are aligned with arbitrary propagation direction by
spacetime meshing operations.
Unlike XFEM, no need to introduce discontinuous features within elements.
Maximum effective stress governs direction.
Arbitrary crack extension:
Example: Mid-crack
propagation under
dynamic loading.
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Probabilistic models for dynamic fracture:
Structural Health Monitoring• Spatial inhomogeneity in material property is important in capturing
realistic fracture patterns for quasi-brittle materials.
• Modeling statistical variations of material properties is essential in
capturing variations in macroscopic response (e.g. ultimate load,
absorbed energy, etc.)
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1. Why randomness is important?
Al-Ostaz 1997: Epoxy sheets with holess
A. Different fracture patterns for the
same loading / geometry Quasi-brittle fracture of cellular ceramic
structures (Genet, Ritchie 2014)
Specimen size
Mean strength
Variation in strength (2x
standard deviation)
B. Mean strength and variation in
fracture strength decrease as specimen
size increase
J Kozicki and J Tejchman (2007)
(in the context of concrete response)
C. High variability in ultimate strength /
fracture energy
Area under the
curve
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2. Why spatial inhomogeneity is
important?
Uniform fracture strength:
All points fail at the same point!
Quasi-static loading
Uniform
tensile
loading
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Our models for stochastic fracture nucleation:
1. Phenomenological model based on Weibull fracture model
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Implicit Representation of Material Randomness
Implicit approach: A random crack nucleation model represents
rock inhomogeneities and randomness
Weibull model is used for probabilistic crack
nucleation
• Fracture strength is
given by a Weibull
distribution.
• Strength at each
vertex is sampled by
an area modulated
Weibull model.
Area of the triangles
around vertex: A
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Comparison of deterministic and random
(Weibull-based) fracture models
And the fracture pattern from the two models deviates even further at higher loadings:
Loading rate: tr = 10 ms Propellant rock fracture (high rate loading)
Deterministic model Weibull model
More microcracks are observed with deterministic model!
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Comparison of details of fracture
patterns between the two models
Uniform strength
Uniform strength causes very
close microcracking as all points
experience high stresses
Nonuniform strength
(using Weibull model)
More realistic response23
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Our models for stochastic fracture nucleation:
2. Stochastic volume elements (characterization) and Karhunen–Loève
(random field realization)
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Current work (Abedi):
Stochastic fracture modeling
Statistical
Volume Element
(SVE)1
2
4 Random field realizations
5 Fracture Simulations
Random field statistics
3
1. By using SVEs material inhomogeneities & sample to
sample variations (randomness) are preserved.
2. Still no need to resolve all microscale details!
A very efficient and
accurate model for
fracture modeling25
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Sample stochastic fracture results
SVE1x1 SVE8x8
Realizations for fracture strength based on
SVE2x2
Window sizes uses for statistical volume elements
Uniform fracture strength
Fracture
patterns
under
uniform load
in horizontal
direction
Very unrealistic fracture pattern with uniform fracture strength model
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Acknowledgments
• University of Illinois at Urbana-Champaign (past and present):
Robert Haber, Jeff Erickson, Michael Garland,
Scott Miller, Boris Petrakovici, Alex Mont, Shuo-Heng Chung,
Shripad Thite, Yong Fan, Morgan Hawker, Jayandran
Palaniappan, Yuan Zhou.
• University of Tennessee:
Philip Clarke, Omid Omidi (post-doc), Bahador Bahmani
• University of Saint Thomas (Minnesota):
Katherine Acton, Sarah Baxter
• Others:
Olivier Allix, Karel Matous.
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