Concrete Wall
Design reinforced concrete walls to AS 3600:2018 (Amdt 2) with the correct method selected automatically - simplified wall design or column design based on slenderness. Axial compression capacity, in-plane shear (Clause 11.6), and P-M interaction are all shown with code references for load-bearing and shear walls in multi-storey structures.
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What it calculates
Design reinforced concrete walls to AS 3600:2018 (Amdt 2) with the correct method selected automatically - simplified wall design or column design based on slenderness. Checks axial compression capacity, in-plane shear (Clause 11.6), and P-M interaction with full control over horizontal and vertical reinforcement.
Code standards
- AS 3600:2018 (Amdt 2)
Who uses this calculator
Design reinforced concrete walls to AS 3600:2018 (Amdt 2) with the correct method selected automatically - simplified wall design or column design based on slenderness. Axial compression capacity, in-plane shear (Clause 11.6), and P-M interaction are all shown with code references for load-bearing and shear walls in multi-storey structures.
Automates AS 3600 code checks and applies the correct design method whether the element behaves as a wall or a column - load-bearing walls in multi-storey buildings, shear walls for wind and seismic resistance, and basement or sloped-site retaining walls. Full control over horizontal and vertical reinforcement inputs with in-plane shear capacity rigorously evaluated against Clause 11.6 limits, removing the need to switch between tools.
How it calculates
The Concrete Wall calculator designs reinforced concrete walls subjected to axial loads and horizontal demands to AS 3600:2018 (Amdt 2). It automatically selects between the simplified wall design method (Cl. 11.4) and the more detailed column design method (Cl. 10) based on the wall's slenderness and moment demand.
Design method selection
The calculator evaluates two conditions to determine which method applies:
- If the design eccentricity e ≤ 0.05t and the wall's effective height-to-thickness ratio is within stocky limits (Hwe/t), the simplified method (Cl. 11.4) is used
- Otherwise, the column method (Cl. 10) is applied, treating the wall as a slender column with full P-M interaction
When the column method applies, moment magnification for slenderness is applied per Cl. 10.4.
Simplified wall design (AS 3600:2018, Cl. 11.4)
Axial compression capacity for a unit length of wall is:
phi × N_wn = phi × (t_w - 1.2e - 2e_a) × 0.6 × f'c
where e is the design eccentricity, e_a = H_we² / (2500 t_w) is the additional eccentricity for slenderness, and phi = 0.65. This is checked against the factored axial demand N*.
Column design - P-M interaction (AS 3600:2018, Cl. 10)
For walls requiring the column method, the full P-M interaction is evaluated:
utilization (axial) = N / (phi × N_n) ≤ 1.0* utilization (moment) = M / (phi × M_n,axial) ≤ 1.0*
Biaxial bending is checked using the Bresler load contour method when moments about both axes are present.
In-plane shear capacity (AS 3600:2018, Cl. 11.6)
In-plane shear demand V* is checked against the wall shear capacity:
phi × V_wn = phi × (f_cv × b_w × L_w/2 + A_sh × f_sy / s)
where f_cv is the concrete shear stress contribution, A_sh is the area of horizontal reinforcement per spacing s, and phi = 0.75. Maximum in-plane shear stress limits per Cl. 11.6 are also checked.
Fire resistance and environment (AS 3600:2018, Cl. 5.7)
The calculator also checks minimum cover requirements for the specified fire resistance period (FRP) and exposure classification, and reports whether the section satisfies structural adequacy for the selected load level.
What engineers say
I like using different software packages, but the reason why I use Calcs.com more often now is load linking.
Richard Faulkner
Senior Structural Engineer, Kusch Consulting Engineers
I like that Calcs.com shows the code reference section for each calculation and function. That means every time I use it, there's a potential for me to learn something.
Jim Fanjoy
Project Architect, Brittell Architecture
Frequently asked questions
What design standard does this calculator use?
What are the key inputs?
What does the calculator check and output?
How does the calculator decide between the simplified wall method and the column method?
Can this calculator handle in-plane shear loads (shear walls)?
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