PAD FOOTIING DESIGN ISOLATED REINFORCED CONCRETE PAD FOOTING DESIGN | C15
Summary Design rectangular concrete column footings for stability and strength. The module allows you to design footings with up to two columns, stub columns, or no columns: each with multiple load cases.
Use Sumo’s Design Links to link analysis results with the Pad Footing module.
The output diagrams include the bearing stress distribution, safety factors for slip and overturning, linear shear and punching shear checks, as well as required reinforcement for flexure. A reinforcement bending schedule generator creates drawings that can be opened and printed with Padds or Probar 2D .
What makes this module special?
Various column layout options Links with Sumo Automated rebar generation
Detailed Description Pad Footing designs rectangular concrete column footings for stability and strength. The module allows you to design footings with up to two columns, stub columns, or no columns: each with multiple load cases. If the pad footing forms part of a larger structure that has been analysed in Sumo, you can link the analysis results with the Pad Footing module; this will extract the support reactions and insert them as load cases. The design output includes diagrams of the bearing stress distribution, safety factors for slip and overturning (for SLS and ULS), linear shear and punching shear checks, as well as required reinforcement for flexure. A simple-to-use reinforcement bending schedule generator creates drawings with rebar cutting lists that you can open and print with Padds or Probar 2D .
PAD FOOTIING DESIGN ISOLATED REINFORCED CONCRETE PAD FOOTING DESIGN | C15
Theory used in this module The module designs rectangular concrete column footings subjected to vertical force and bi axial bending moment: • Stability : The module also verifies the stability requirements for overturning and bearing pressure. Stability checks can be performed at ULS and SLS. • Strength: The module designs the footing at ultimate limit state for flexure and shear. • Optimisation: You can use the module to optimise the dimensions of the footing to yield the most economical design.
PAD FOOTIING DESIGN ISOLATED REINFORCED CONCRETE PAD FOOTING DESIGN | C15
Workflow You can either define your pad footing, its loading, and properties in the design module or if the footing forms part of a larger structure that you have analysed in Sumo , you can link the analysis results with the Pad Footing module; this will extract the support reactions and insert them as load cases.
Supported Design Codes
Design Codes
Detailing Codes
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ACI 318 - 1999 ACI 318 - 2005 ACI 318 - 2011 ACI 318 – 2014 ACI 318 - 2019 AS 3600 - 2001 AS 3600 – 2009 AS 3600 - 2018 BS 8110 - 1985 BS 8110 - 1997
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CP 65 - 1999
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BS 4466 - 1989 BS 8666 - 2005 SANS 282 - 2004 SANS 282 - 2011
CSA A23.3-04 - 2010 CSA-A23.3:2019 Eurocode 2 - 2004 HK Concrete - 2004 HK Concrete - 2013
IS:456 - 2000 NZ 3101 - 2006
SABS 0100 - 2000 SP 63.13330.2018
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