MASS^{} uses a finite element analysis to determine the reactions at the supports, and the values of bending moment, shear force, and deflection at any point along the assemblage. The finite element analysis engine contains a load combination generation engine, and is able to perform the analysis on all the load combinations mandated by the 2005 National Building Code of Canada.

The Load Analysis Results tab is activated when loads are placed on the shear wall (during the loads input design step). It shows information about the factored moment, and factored shear at points of interest along the height of the wall. The load analysis results contain two tabs:

- Moment and Shear
- Deflection

#### Moment and Shear

To view the factored moment and factored shear data:

- Click on the Loads Analysis Results tab
- Click on the Moment and Shear tab

The Moment and Shear tab contains a table with the factored moment and factored shear (out-of-plane shear and out-of-plane sliding shear) at points of interest along the height of the out-of-plane wall. The interval of the points is 100 mm.

Note that these intervals all divide equally into a modular length. Additional points are included at the following locations:

- At point load locations
- At the start and end of partial line loads
- At the value of maximum and minimum moment, which is determined by the load analysis engine using a finite element method
- At the centre of the shear wall

A sample loads analysis results table for moment and shear is shown in

**Figure 5‑98: Loads Analysis Results (Moment and Shear)**

The first column of the table indicates the location of the points of interest on the height of the wall, from top to bottom.

When critical load envelope is selected, from the ‘Critical Load Envelope’ drop-down, the value displayed is the largest of moment or shear values for all load combinations; and, the ‘LC’ column shows the number of the load combination for that particular moment or shear value. If a particular load combination is selected (i.e.: 2:1.25D + 1.5L), the columns show the moment or shear values at the location of the points of interest for that particular load combination; and, the ‘LC’ column shows the number of the load combination selected.

Note: Changing the load combination (using the ‘Critical Load Envelope’ drop-down box) alters the loads analysis results that are displayed. The wall, however, is always designed to resist the critical load combination.

Notice also, that when the critical load envelope is chosen, the ‘LC’ column under the Loads Analysis Results tab provides users with the load number of the critical load combination.

Continue Reading: Shear Wall Design Strategy

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