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Shear walls are critical building elements to resist in-plane loads and are, for masonry, the wind and seismic-force-resisting system. This session will review Allowable Stress Design of shear walls, along with both seismic detailing requirements and minimum/maximum detailing requirements for such walls. Design for in-plane shear, including shear friction, and in-plane flexure will be explored... |
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Masonry columns and pilasters are often used in masonry buildings to carry large, concentrated loads, and, for pilasters, to support exterior walls subjected to out-of-plane loads. ASD design and detailing required for these elements will be reviewed. This session will also look at several sample masonry buildings to illustrate system behavior and overall design methodology.... |
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Reinforcement and connectors are essential to ensure a proper load path in masonry buildings. This session will review basic detailing requirements for reinforcement and connectors, and specific requirements for their design when using allowable stress procedures for masonry. Lap length requirements for reinforcement, use of hooks and confinement bars, and the design of anchor bolts... |
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