Ancillaries
Ancillaries enable the quick and efficient application of loading from ancillary items such as ladders, stairs and pipework etc - that are not part of the main structural frame.
What are ancillaries used for?
- Modeling of stairs in steel, concrete, and timber structures,
- The use of stairs in combination with inactive members.
Ancillaries can also be used to model loads from:
- Walkways/Catwalks
- Ladders (with/without cages)
- Access Platforms
- Operating Platforms (Storage/Standard)
- Lines of Pipework
- Lines of Cable Tray
In Tekla Structural Designer each of the above types can be created in the form of either a line, or area ancillary.
Line ancillaries
Line ancillaries can be defined horizontally, vertically or sloped. They are created by selecting a series of support points in order to create a "run". Each line has a defined width in a user defined plane (perpendicular to length).
Area ancillaries
Ancillary load default values
Each Line or Area Ancillary has default Dead Loads and Imposed/Live Loads which can be preset to be project specific from the subpages under Loading in Model Settings.
The default values can be overridden when individual ancillaries are created.
Ancillary loadcases
Ancillary loads are created in dedicated loadcases which are automatically added and removed as the ancillary loads are added/deleted. These dedicated loadcases specifically aid combination building for Industrial design.
Most types of ancillary load are created in the Ancillary Dead & Ancillary Live (Imposed) loadcases. The two exceptions are lines of pipework which are created in the Pipework Empty, Pipework Operating Content & Pipework Testing Content loadcases, and lines of cable tray which are created in the Cable Tray Empty & Cable Tray Content loadcases.
If working to Eurocodes, the ancillary imposed case Ψ and ɸ factors default to Ψ1 = 1.0, Ψ2 = 0.9, Ψ3 = 0.8, ɸ = 1.0. Some ancillaries may require different values in which case a new imposed loadcase should be manually added with the desired Ψ and ɸ factors. Then when the ancillary load is being created the loads can be put into the new loadcase instead of the dedicated loadcase by changing the Imposed Load Loadcase in the Properties window from 'default' to that required. |
Ancillary load decomposition
All decomposed loads from ancillaries are present in the analysis and design.
Once loads are decomposed the ancillaries themselves play no further part in analysis and design.
Line ancillary decomposition
Line ancillaries are treated as simply supported beams, spanning onto supporting members/slabs.
Decomposition is in two stages from the line ancillary to its supports then onwards.
In the below example the line ancillary is supported by a beam at one end and a slab spanning perpendicular to the ancillary at the other. At the slab end, stage 2 decomposition occurs to distribute the load on to beams supporting the slab.
Area ancillary decomposition
In the same way as a roof panel, an area ancillary has a span direction which determines the load decomposition onto surrounding supporting members/slabs.
Decomposition is in two stages from the area ancillary to its supports then onwards.
In the below example the area ancillary is supported by a slab which spans in the same direction as the ancillary.
The UDLs generated in the stage 1 decomposition are then decomposed on to the members supporting the slab in stage 2.
Create line ancillary loads
Create area ancillary loads
Generate ancillary combinations
Create an ancillary loads report
A table of the ancillary loads applied to the model is available in the Industrial Structure Loading report, which is created as follows: