Introduction

The video explains shearwall deflection, hold-down displacement, and storey drift analysis using an example model. It covers deflection calculations based on different force directions, material configurations, and the choice between non-linear four-term and linear three-term equations.

The hold-down displacement table details uplift forces, elongation, slippage, wood shrinkage, and crushing, which contribute to total vertical displacement. Finally, the maximum storey drift is evaluated ensuring the design meets structural safety standards.

Learning Outcomes

By the end of this lesson, you will be able to:

• Analyze the factors affecting shearwall deflection, including force direction, material configuration, and equation selection (4-term vs. 3-term).
• Interpret hold-down displacement components such as uplift forces, elongation, slippage, wood shrinkage, and crushing to assess their impact on total vertical displacement.
• Calculate storey drift using deflection results and ensure it is structurally compliant.
• Evaluate the suitability of different deflection and drift analysis methods (deflection-based vs. capacity-based) for shearwall design.

Instructional Video

Video Run Time: 07:28 minutes

This video utilizes one project file and it is available for download below.