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Quake Summit 2010, NEES & PEER Annual Meeting, October 8-9. October 9, 2010. PEER/NEES Concrete Column Blind Prediction Contest. MODELING APPROACH. 3D beam-column elements Moment-axial interaction Lumped plasticity at nodes ASCE 41 backbone curve ANSR-II for non-linear analysis. - PowerPoint PPT Presentation
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PEER/NEES Concrete Column Blind
Prediction Contest
Quake Summit 2010, NEES & PEER Annual Meeting, October 8-9
October 9, 2010
• 3D beam-column elements
• Moment-axial interaction
• Lumped plasticity at nodes
• ASCE 41 backbone curve
• ANSR-II for non-linear analysis
MODELING APPROACH
• Moment-curvature to verify: – Section response– Strain hardening– Failure mechanism
• Effective section properties:– SLS: 0.78Ig– ULS: 0.38IgPer NZS 3101: 2006
MODELING APPROACH
MODELING APPROACH
• Damping:– Based on original
stiffness– SLS: 2.0%– ULS: 2.5%
• Moderate unloading stiffness degradation: = 0.3
• Parameters that generally correlated well:– Displacement– Acceleration– Base moment– Shear force
… with some exceptions!• Displacements for record 5
were significantly different• Accelerations for records 3 &
6 were lower than predicted
PERFORMANCE PREDICTIONS
• Parameters that did not correlate well:– Axial force– Curvature– Axial strain
• Records 5 & 6 had the largest result scatter
PERFORMANCE PREDICTIONS
CONCLUSIONS & NEXT STEPS …
• Design office procedures in conjunction with ASCE 41 are capable of estimating global demand parameters with reasonable accuracy, on average.
• Macro modeling techniques are not well suited to capturing local member response:– Curvature– Strain etc.
• Tangent stiffness damping may be more appropriate for this type of structure
• With access to shake table test data, further improvement to these macro-modeling techniques can be expected
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