RGA Global Headquarters Lateral System Analysis Study

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Presentation transcript:

RGA Global Headquarters Lateral System Analysis Study Chesterfield, MO Natasha Beck | Structural

Area Considered Seismic expansion joints create four separate structural buildings E.J.= 2 ½”

Lateral Elements Modeled Two Stage Analysis procedure Office: brace frames Parking garage: shear & foundation walls

Modeling Process Braced Frames Shear Walls Two-Stage Analysis Period Reactions Shear Walls Two-Stage Analysis ASCE 7-05 12.2.3.1 Combination Factor Combined Model Braced Frame Reactions Converted by Two-Stage Analysis Applied to top of shear walls

Modeling Considerations Base conditions Brace frames-pinned base Shear walls-pinned base Rigid Diaphragms Office-composite concrete T=6 ½” Parking-slabs 7 ½” to 9 ½” Irregularities Non-parallel systems irregularity in parking garage

Force Distribution Weight at the Level 01 interface Penthouse story forces

Animations

Moment Diagrams Braced frame controlling case: 0.9D+1.0E Seismic Y-5%X Critical Braced Frame Braced frame controlling case: 0.9D+1.0E Seismic Y-5%X

Member Utilization Ratios Critical Braced Frame Critical Shear Wall Braced frame controlling case: 0.9D+1.0E, Seismic Y-5%X Shear wall controlling case: 0.9D+1.0W, Wind Case 1-Y

Is the System Acceptable? System and components are adequate for strength Foundation is acceptable Serviceability-Drift Wind: Meets both H/400 and H/600 drift limits found in ASCE 7 commentary Seismic: Meets allowable story drift standards Max. concrete building drift= < ½*EJ=1.25” System is acceptable