phase i: model1, model3 and some fracture mechanics of the ... · 1 11.4.2011 power phase i:...
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11.4.2011 Power 1
Phase I: Model1, Model3 and Some Fracture Mechanics of the Liner
NRC Headquarters, Standard Problem Exercise, April 13 - 14, Washington DC
By: Jukka Kähkönen and Mari Vuorinen
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Model1: General
• Modeling with Abaqus-6.10
• Shell model
– 420 elements
• Reinforcement with rebar
layers (shell property)
• Tendons with truss elements
• Liner with "skin" reinforcement.
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Model1: Tendon-Concrete Interaction
• 140 "slot" connector elements
• Friction factor 0.21
• Prestressing displacement
guided.
Concrete node Tendon node
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Model1: Material models Concrete with Damage
Plasticity model
Tendon Steel
Liner Steel Reinforcement Steel
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Model1: Results (1/2)
Deformation 3.3xPd
(scale x 10)
Deformation 3.5xPd
(scale x 10)
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Model1: Results (2/2)
Tendon after prestressing
6.00E+08
8.00E+08
1.00E+09
1.20E+09
1.40E+09
1.60E+09
1.80E+09
2.00E+09
90 120 150 180 210 240 270
Azimuth [deg]
Str
ess [P
a]
0.0xPd
1.0xPd
1.5xPd
2.0xPd
2.5xPd
3.0xPd
3.3xPd
3.4xPd
3.5xPd
Stress with increasing pressure
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Model1: Conclusions
• The behaviour of the model is consistent with the test results.
• Slot connectors are able to model the tendon-concrete interaction.
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Model3: General
• Modeling with Abaqus-6.10
– Implicit dynamic analysis. Much better
convergence than using static solver.
– Loads applied slowly (quasi-static).
• 175603 nodes and 257580 elements.
• Containment with shell elements.
Basemat with solid elements. Tendons
with truss elements.
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Model3: About tendons
• 3 parts
– Horizontal
– Vertical-1
– Vertical-2
• Slot connector interaction
between tendon and
concrete node.
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Model3: Rebars and Liner
• Rebars with rebar layer shell property.
• Liner as a skin reinforcement.
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Model3: Tendon Prestressing
• Force guided pretension and seating loss.
• Locking of the prestressing connectors achieved using temperature
dependent connector plasticity:
*CONNECTOR BEHAVIOR,
NAME=ZZZV2-CONNSECT-END
*CONNECTOR ELASTICITY, RIGID
1
*CONNECTOR PLASTICITY,
COMPONENT=1
*CONNECTOR HARDENING,
DEFINITION=TABULAR
1.0E-15, 0.0, 0.0,0.0
1.0E+15, 0.0, 0.0,1.0
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Model3: Some Selected Results
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Model3: Results
Global deformation (x 50) at applied
pressure P = 3.5 x Pd
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Some Fracture Mechanics of the Liner
• Sub model of the liner.
• Two layers of reduced integrated
solid brick-elements.
• Element side length ca. 5cm.
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Overlay Plot of the Sub Model
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Does the Sub Model Work?
P = 3.034Pd, Deformation x 50
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Setup
• The global model drives all the sub model dofs.
• Use of extended finite element method (XFEM) available in Abaqus.
• Crack initiation when max. principal strain = 0.03.
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Crack Growth Criteria (1/2)
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Crack Growth Criteria (2/2)
• Critical energy release rate = JICr = 61.32 kJ/m2
• Same critical energy release rate used for modes II and III.
• Power law assumption: (JI /JICr)1 + (JII /JIICr)
1 + (JIII /JIIICr)1 1
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Results: Crack Initiation
P = 3.034Pd
P = 3.28Pd
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Results: Crack Propagation (1/2)
P = 3.284Pd
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Results: Crack Propagation (2/2)
22.7cm
ca. 77cm
P = 3.284Pd
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Thank you for your attention !