September 6, 2017

Canadian Wood Design Updates

The latest releases of RISAFloor and RISA-3D include the following updates to wood design per the Canadian codes:

Wood Wall Design

RISA-3D v16 and RISAFloor v12 now offer design of wood walls per the Canadian wood design codes (CSA O86-09 and CSA O86-14). The design methodology is very much like the Segmented method used by the NDS design codes.

Design requires chords on each side of each full height panel.
Design assumes that the areas above and below openings have zero stiffness. Only full height piers are considered to resist loading.

Additionally, the design of individual panel elements is as follows:

The sheathing panel is assumed to resist the in plane shear
The chords are assumed to resist the overturning moment
The studs are assumed to resist the axial load
The hold downs are designed for the governing tension chord force at the base elevation of the wall
Deflections, including the effects if hold-down elongation, are calculated per the code based equation

For more information on wood wall design, please see the “Wood Wall” topic in the program help file.

Structural Composite Lumber Design

RISA-3D v16 and RISAFloor v12 will also now offer design of structural composite wood members per Chapter 15 of the current Canadian wood design code (CSA O86-14).

Tags: RISA-3D, RISAFloor, New, Wood, Canadian

April 12, 2017 | RISA-3D, RISAFloor, New, Wood, Canadian

CSA O86-14 Canadian Wood Code now Available

The new CSA O86-14 code has been implemented in RISA-3D v15.0 and RISAFloor v11.0 To select this code for your design, simply open the (Global) Model Settings and under the Codes tab select CSA O86-144 for wood: The Detail Reports will display the code that the user has selected for their wood design:…

February 15, 2022 | RISA-3D, Walls, RISAFloor, Concrete, New, Canadian

Canadian Concrete (CSA A23) Wall Panel Design in RISA

The CSA A23.3-14 Concrete Design Code has been implemented into RISA-3D v20 and RISAFloor v16 for concrete wall panels. These walls can be designated and designed as either gravity only or lateral elements in RISAFloor when designing a complete building utilizing concrete walls. Prior to this release, only ACI codes were supported for the design of concrete wall panel elements. When using the new A23.3-14 code for the design of concrete wall panels, the software incorporates the following limit state checks: In-Plane Bending Out-of-Plane Bending Combined Axial + Bending In-Plane Shear Out-of-Plane Shear Various Geometry & Rebar Checks per Clauses 14.1.7 & 14.1.8 For more information about concrete wall panel design in RISA, visit the Wall Panel section of our Online Help:…

February 15, 2017 | RISA-3D, RISAFloor, RISA-2D, New, Steel, Canadian

CSA S16-14 Canadian Steel Code now Available

RISA-3D now supports hot rolled steel design for the Canadian market according to CSA S16-14. New to RISAFloor and RISA-3D is the ability to set the L-Torque length for the CSA S16-14 code. In previous versions of the Canadian code, RISAFloor and RISA-3D used the full member length as the torque length when calculating torsional buckling. Now per CSA S16-14 Clause 13.3.2, we’ve added the L-Torque input for the Canadian steel code similar to how it is done in the AISC 13th/14th. The input for L-Torque length is entered in the Members spreadsheet or in the Property Grid. The Detail Report shows the torque length separate from the other lengths for CSA S16-14: For the 2009 and 2014 Canadian steel code, when the section is Class 4 (slender cross-section) the program uses an effective yield stress Fye. Thus the code check on class 4 members (for CSA S16-09 and CSA S16-14), uses a yield strength that is different from the specified material Fy. A note has been added to the Detail Report indicating to the user what yield strength values were used which can be important information when trying to reproduce the output values. The Fy has only been adjusted…