Steel Column (AS 4100:1998)
Column axial load links from beam reactions above and links to footing calculations below - change a beam span and the footing design updates automatically. Structural engineers working with projects that reference the 1998 edition of AS 4100, including legacy documentation and staged upgrades. Covers axial section capacity, member buckling, and combined axial-plus-bending interaction for Australian hot-rolled sections.
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What it calculates
Design hot-rolled steel columns and posts to AS 4100:1998 (R2016) for legacy Australian projects. Checks cover axial section capacity, member buckling, and combined axial-plus-bending interaction. Column axial load links from beam reactions above and passes down to footing calculations below so changes propagate automatically.
Code standards
- AS 4100:1998
How it calculates
The Steel Column (AS 4100:1998) calculator designs hot-rolled steel columns and posts using limit state design per AS 4100:1998 (R2016). It runs a first-order elastic analysis per Clause 4.4.2 to determine demands, then applies AS 4100:1998 capacity equations for all relevant limit states.
Structural analysis
The calculator performs FEA on the column as a beam-column, resolving axial forces, bending moments, and deflections under applied loads. End conditions (pinned, fixed, roller) are specified at each support. Concentrated axial loads and distributed lateral loads can be applied at any height. The member is assumed to be of uniform cross-section along its full length. Interaction limit states are conservatively based on the maximum individual demands in each span regardless of load case.
Axial section capacity
Section capacity in compression is checked per AS 4100:1998 Section 6:
utilization = N / (phi * Ns) ≤ 1.0*
where phi = 0.90 and Ns = kf * An * fy. The form factor kf accounts for local buckling of slender plate elements in the cross-section.
Member buckling capacity
Compression member buckling capacity is checked per AS 4100:1998 Section 6:
utilization = N / (phi * Nc) ≤ 1.0*
Nc is determined from the member slenderness reduction factor alphac, which depends on the modified slenderness lambda_n and the member section constant alphab from Table 6.3.3. Major- and minor-axis effective lengths are entered separately to capture the governing buckling axis.
Flexural capacity
Moment member capacity (lateral-torsional buckling) is checked per AS 4100:1998 Section 5:
utilization = |M| / (phi * Mb) ≤ 1.0*
Mb is determined from the reference buckling moment Ms and the slenderness reduction factor alphas. Flange and web compactness classifications govern whether the full plastic, compact, or slender section capacity applies.
Combined axial and bending
Combined axial compression and biaxial bending is checked per AS 4100:1998 Section 8 interaction equations. The interaction checks account for amplified moments where first-order analysis is used for design.
Outputs
Results are displayed as colour-coded utilization ratios for each limit state with AS 4100:1998 clause references. Section properties, governing demands, and capacity factors are tabulated for report documentation.
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Frequently asked questions
What design standard does this calculator use?
What are the key inputs?
What limit states does it check?
How does AS 4100:1998 differ from AS 4100:2020 for column design?
How do I set effective length factors?
Can this calculator receive loads from a beam and pass axial load down to a footing calculation?
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