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Transcript of Predicting Failure in Composites - · Predicting Failure in Composites ... and analysis failure...
![Page 1: Predicting Failure in Composites - · Predicting Failure in Composites ... and analysis failure stresses . ... Modelling discrete failures in composites with interface elements.](https://reader034.fdocuments.net/reader034/viewer/2022042510/5ae2b39d7f8b9a5b348c97cb/html5/thumbnails/1.jpg)
Predicting Failure in Composites
Michael R. Wisnom
Stephen Hallett
www.bris.ac.uk/composites
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Overview
• Fracture is complex, with interacting damage modes • Discrete nature of fracture is crucial • Cohesive zone interface elements are very effective at
representing discrete fractures • Good predictions can be made provided correct failure
mechanism is captured • Range of examples:
– Un-notched and notched tension
– Defects – Impact – Tapered laminates – Fatigue
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Importance of discrete failure
• Low transverse strength causes early matrix cracks and delaminations
• Form discrete fractures that join up and interact • Provides alternative mechanism to unload fibres • Important in controlling ultimate failure • Homogeneous models can represent
reduction in stiffness due to damage • Cannot capture discrete nature
of final fracture
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Other examples of discrete failure
• Fibre dominated failure of quasi-isotropic carbon/epoxy in tension
Factor of 3 variation in strength with stacking sequence and ply block thickness
• Ply drops – complete block of material can shear out
Wisnom, 2010
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Interface elements
• Interface elements relating tractions to relative displacements are a good way to model discrete failures
• Unify stress-based and fracture mechanics approaches to failure
• Can handle initiation and propagation • Physically realistic and numerically
convenient approach • Can be applied to both delaminations
and discrete transverse cracks • Interface elements available now in
many commercial programs
Ply interface
Coincident nodes
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Interaction of delamination and matrix cracks
• IM7/8552 carbon-epoxy laminate • (454/904/454/04)s) layup • Uniaxial tension loading • Fails by delamination before
fibre failure • Cohesive elements at all
ply interfaces • Potential splits also represented
with interface elements
Matrix crack elements
Delamination elements
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Comparison with experimental observations
Interaction of delamination and cracks captured Predicted failure stress within experimental scatter
Hallett et al, 2008
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Extended FEM
• Some effect of assumed relative split locations
• XFEM allows automatic split insertion
Iarve et al, 2011
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Open hole tension
•Hexcel IM7/8552 •(45m/90m/-45m/0m)ns layup •All specimens scaled •Two methods of thickness scaling •Complex damage development: Matrix cracking, splitting, delamination
Hallett et al, 2009
45 90
-45 0
45 90
-45 0
45 90
-45
Dispersed plies Blocked plies
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Finite element analysis
Interface elements between all plies
Potential splits within plies
Not to scale
LS_Dyna Weibull fibre failure criterion
1.
1≥
∑=
m
unit
ii
ElementsofNo
iV
σσ
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Predicted damage, t=4mm,d=25mm
•Damage mechanisms captured well •Good correlation of test and analysis failure stresses
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Overheight Compact Tension specimens • Fibre failure catastrophic in open hole specimens • OCT tests produce gradual failure • Specimen size supposed to be sufficiently large to allow
development of damage “process zone” ahead of notch tip • Two stacking sequences – dispersed and blocked plies • IM7/8552 carbon/epoxy
Li et al, 2013
Loading Anti-buckling guides
45
90
-45
0
45 90
-45 0
45 90
-45
Dispersed plies Blocked plies
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• Multiple potential crack sites inserted ahead of notch tip
• Interface elements between all plies
• Fibre failure modelled by progressive Weibull criterion
• Maximum stress element is removed
• Load redistributed by FE • Weibull criteria re-evaluated
at next time increment
FE mesh and fibre failure
-45o ply 0oply
45o ply 90oply
1.
1≥
∑=
m
unit
ii
ElementsofNo
iV
σσ
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0
2
4
6
8
10
12
14
16
18
20
22
0 0.5 1 1.5 2 2.5 3P O D (m m )
Load(K
N)
Typical E xperim entalresultN um erical result
0o ply pulled out
Layup [454/904/-454/04]s (4mm)
• Thick ply blocks promote matrix cracking and delamination
• 0° ply cracks ahead of the notch blunt crack
• No fibre failure observed • Failure by pullout of 0° ply block
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Scaled Centre Notch Tension tests
In-plane scaled IM7/8552 [45/90/-45/0]4s laminates
Sharp crack
Central-crack and open-hole specimens
C=3.175mm, 6.35mm, 12.7mm, 25.4mm
In-plane scaled test specimens
Failure of specimens
X Xu
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• Strength reduces with size, but less than predicted by LEFM • Similar scaling trends for open holes and centre notches • Specimens with cracks stronger than holes!
Size effects in notched laminates
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Failure mechanism (fixed scale)
Central double 0 degree ply
Single 0 degree ply
C=3.175mm
C=3.175mm
C=6.35mm
C=6.35mm
C=12.7mm
C=12.7mm
C=25.4mm
C=25.4mm
Interrupted tests (95% failure load):
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FE modeling • Delamination elements between all plies • Potential split elements along multiple paths at crack tips • Weibull failure criterion and element removal for continuous
fibre failure
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FE mesh (Baseline c=3.175mm)
Mesh size 0.06mm
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Failure mechanisms (Baseline c=3.175mm)
• Fibre failure growth before final failure in single 0 plies • No fibre failure in central double 0 plies • Matches experimental observations
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Failure mechanisms (Scaled up c=25.4mm)
Double 0 plies
• Fibre failure growth before final failure in ALL plies • Consistent with experimental observations
Single 0 plies
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Results correlation
• Good overall correlation • FE is able to predict damage and scaling trends • Damage zone size increases with specimen size,
and so fracture toughness increases
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Out-of-plane wrinkling compression test
Specimen 3 - Final 4 frames @ 90,000 FPS
IM7/8552 [+45, 90, -45, 0]3S M Jones
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Analysis results – compression • 3D FE model with cohesive elements at all interfaces • Captures delamination initiation from the edge • Failure at 455 MPa cf experimental average of 457 MPa
Delamination at 45/90 interface observed in experiment
Major delamination at the 45°/90° ply interface
S Mukhopadhyay
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Impact and compression after impact • Impact damage mechanism
with multiple delaminations well captured
• CAI response can also be modelled
R. Sun
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0
5
10
15
20
25
30
35
40
0.0 0.5 1.0 1.5Displacement [mm]
Load
[kN
]
Prediction of delamination in tapers
Experimental failure load (SD=0.6 kN)
delamination
L. Kawashita
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• Novel cohesive formulations can model fatigue as a function of the SERR amplitude and number of cycles
• Paris-law regime, R-ratio (trough/peak loads) of 0.1 • Envelops of forces and displacements modelled
Fatigue delamination growth
FE force or displacement Cohesive model assumption
pseudo-time
F
minF
maxF
initialisation fatigue degradation
F∆δ
maxσσ
0
instanttG
fδ
ttt ∆−
δ
maxσσ
0
finalG
fδ P. Harper
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0
200
400
600
800
1000
1200
1.E+0 1.E+1 1.E+2 1.E+3 1.E+4 1.E+5 1.E+6
Cycles
Thin
Sec
tion
Stre
ss [M
Pa]
FE, pristineExp, pristineFE, defectExp, defect
Model-test correlation: cyclic loading
pristine
defect
defect
delamination from ply drop
delamination from ply drop
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Open hole tension fatigue
0 10 20 30 40 50 60 70 80
2 3 4 5 6
Effe
ctiv
e M
od
ulu
s (G
Pa)
Log Number of Cycles
4x4 (Fine) Mesh at 40%, 50%, 60% and 70% Cyclic Fatigue Load
40%
50%
60%
70%
O. Nixon-Pearson
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Conclusions • Discrete delaminations and splits are
crucial in controlling failure • Good predictions can be made provided
mechanisms are correctly captured: – Notched and unnotched tension – Tapered laminates – Impact and compression after impact – Defects e.g. out-of-plane wrinkling
• Approach also works for fatigue
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Papers
• Hallett SR, Jiang W-G, Khan B, Wisnom MR, 2008. Modelling the interaction between matrix cracks and delamination damage in scaled quasi-isotopic specimens. Composites Science and Technology 68:80-90.
• Hallett SR, Green BG, Jiang WG, Wisnom MR, 2009. An experimental and numerical investigation into the damage mechanisms in notched composites. Composites Part A 40:613-624.
• Iarve EV,Gurvich MR, Mollenhauer DH Rose CA, Dávila CG, 2011. Mesh-independent matrix cracking and delamination modeling in laminated composites, International Journal For Numerical Methods In Engineering 88:749–773.
• Kawashita LF, Jones M, Giannis S, Hallett SR, Wisnom MR, 2011. High fidelity modelling of tapered laminates with internal ply terminations. 18th International Conference on Composite Materials (ICCM18), Jeju, Korea, 21-26 August 2011.
• Li X, Hallett SR, Wisnom MR, 2013. Numerical investigation of progressive damage and the effect of layup in overheight compact tension tests. Composites Part A, online.
• Mukhopadhyay S, Jones MI, Hallett SR, 2013. Modelling of out-of-plane fibre waviness; tension and compression tests, ECCOMAS Thematic Conference on the Mechanical Response of Composites, September 2013.
• Nixon-Pearson OJ, Hallett SR, Withers P and Rouse J, 2013. Damage development in open hole composite specimens in fatigue, submitted.
• Wisnom MR, 2010. Modelling discrete failures in composites with interface elements. Composites Part A 41:795–805.