Reinforced Concrete Wall Research Based on the Experience ...• Cyclic lateral loading via static...
Transcript of Reinforced Concrete Wall Research Based on the Experience ...• Cyclic lateral loading via static...
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Reinforced Concrete Wall Research Based on
the Experience and Observations from the February 2010 Maule, Chile, Earthquake
Steven McCabe
Travis Welt
NEHRP Group Materials and Structural Systems Division
NIST Engineering Laboratory
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What is the problem? The effects of structural and wall design parameters for slender walls on overall performance are not well understood. Importantly, failure mechanisms also are not well understood….
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Earthquake Risk Mitigation R&D Program
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San Pedro de la Paz, Building A (Alto Huerto)
Photos courtesy of Jack Moehle, UC Berkeley
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What is the problem? Walls designed essentially to US customary practice, aside from confinement detailing, appear to have exhibited out-of-plane buckling due to slenderness. Consensus of the experts is that this observed behavior has serious implications for US design practice, and is not well understood.
Current US model building codes do not have a limit on wall slenderness, the poor behavior of walls as observed in Chile could be realized in the US.
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Focus of Study
• Study the performance of slender walls to determine how typical design parameters affect the ultimate capacity
• Parameters of interest – Flexural reinforcement configuration (uniform or bundled in
boundary element region)
– Flexural reinforcement ratio
– Axial load level
– Wall configuration
– Splices
– Lateral loading protocol
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Proposed Loading
• Cyclic lateral loading via static load protocol with imposed drift levels up to about 2%
• Constant shear span ratio (M/V*Lw) in the range of 2-4 – Consistent with comparable wall tests
• Static and variable axial load application – Static 10% fc’Ag axial load for majority of tests
– Vary axial load between 5-10% fc’Ag based on cyclic direction to mimic effects of unintentional wall coupling (and rocking)
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Proposed Static Cyclic Loading
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Elevation
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Base Detail
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UW Planar Wall Database (Pugh 2012) Courtesy of Dawn Lehman U. of Washington
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UW Building Inventory of Planar Walls Courtesy of Dawn Lehman U. of Washington
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Drift Capacity vs. Applied Shear Stress
Existing Tests
Proposed Tests
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Drift Capacity vs. Shear Span Ratio
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Drift Capacity vs. Boundary Element Reinf. Ratio
Existing Tests
Proposed Tests
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Drift Capacity vs. Web Reinf. Ratio
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Drift Capacity vs. Axial Stress Ratio
Existing Tests
Proposed Tests
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Overall Testing Objectives • Static Cyclic Loading Protocol with up to ~2% Drift • Slender Walls (200 mm typical) • Low Reinforcement Ratios (< 2%); Uniform Steel
Distribution, Boundary Elements • Axial load target of 0.10 f’c Ag
• Investigation of Large Tension Strains Early in Loading Protocol
• Initial Program of 15 tests • Later Tests May Include Retests of Repaired Wall
Specimens • Possible Look at 1970’s Wall Designs Strengthened to
Improve Performance
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Thank you for your attention
Questions?