Concrete Pad Footing
Footing loads link up to the columns and beams above, so structural changes propagate down automatically. Design concrete pad footings to AS 3600:2018 (Amdt 2) with instant moment, shear, and punching shear results for a rectangular column under axial load and uniaxial bending.
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What it calculates
Footing loads link up to the columns and beams above, so structural changes propagate down automatically. Design concrete pad footings to AS 3600:2018 (Amdt 2) with instant moment, shear, and punching shear results.
Code standards
- AS 3600:2018 (Amdt 2)
How it calculates
The Concrete Pad Footing calculator designs square or rectangular reinforced concrete pad footings to AS 3600:2018 (Amendment 2). It checks bending, one-way shear, and punching shear in both plan directions, and verifies bearing pressure under service loads.
Geometry and inputs
The footing is modelled as a rectangular slab of plan dimensions X × Y and thickness D, with a rectangular column of dimensions X_c × Y_c centred on the footing. Soil depth above the footing (d_soil) and column offset from the centroid can also be specified.
Load distribution and bearing check
Applied column loads (axial force N, biaxial moments M_x and M_y, and shear) are resolved into a non-uniform bearing pressure distribution across the footing plan. The maximum bearing stress q_max is compared to the allowable bearing capacity q_a:
utilization = q_max / q_a ≤ 1.0
A limited stability check confirms that the footing remains in total compression (resultant load eccentricity within the kern) under working loads.
Flexural analysis (AS 3600:2018, Cl. 8.1)
Bending moments are calculated at the critical section for each direction (at the column face). Required flexural reinforcement A_st is determined from the ultimate moment demand. Moment capacity phi × M_u is checked in both the X and Y directions:
utilization = M / (phi × M_u) ≤ 1.0*
Minimum reinforcement per Cl. 8.1.6.1 is enforced: A_st,min = 0.19 × (D/d)^2 × (f'c / f_sy) × B × d
One-way (wide beam) shear (AS 3600:2018, Cl. 8.2.4.3)
Critical shear planes are taken at distance d from the column face in both plan directions. The simplified shear strength method (valid for f'c ≤ 65 MPa, no prestress, tension, or torsion) is applied:
utilization = V / (phi × V_u) ≤ 1.0*
Punching shear (AS 3600:2018, Cl. 9.3)
The critical perimeter for punching shear is taken at d/2 from the column face on all sides. Punching shear demand V* is the applied column load minus the upward soil reaction within the critical perimeter. Capacity phi × V_uo is a function of concrete strength, critical perimeter length, and effective depth.
utilization = V / (phi × V_uo) ≤ 1.0*
Assumptions
The column is rectangular and centred on the footing; the footing is subject to axial loads and uniaxial bending only. Overturning is not fully checked - only a limited stability check on working loads is performed. Concrete shear strength uses the simplified method (Cl. 8.2.4.3).
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What engineers say
Just the simple feature of being able to link loads is a really big time-saver.
Sam Hensler
Principal, Dynamic Analysis Engineering Consulting
The load linking feature is huge for us. Before, we had to use separate calculators and manually input everything.
John Cagle
Project Engineer, CHM Engineering
Frequently asked questions
What design standard does this calculator use?
What are the key inputs?
What checks and outputs does the calculator provide?
How does load linking work for pad footings?
Does this calculator handle eccentric or biaxial loading?
Can I link this footing directly to a column calculation?
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