W30X292 Steel Beam — Section Properties
Dimensions
| Property | Value | Unit |
|---|---|---|
| Depth (d) | 32 | in (812.8 mm) |
| Flange Width (bf) | 15.30 | in (388.6 mm) |
| Flange Thickness (tf) | 1.85 | in |
| Web Thickness (tw) | 1.02 | in |
| Area (A) | 86 | in² (554.9 cmÃÂò) |
| Weight | 292 | lb/ft (434 kg/m) |
Elastic Section Properties
| Property | Strong Axis (X-X) | Weak Axis (Y-Y) | Unit |
|---|---|---|---|
| Moment of Inertia (I) | 14,900 | 1,100 | in⁴ |
| Elastic Section Modulus (S) | 930 | 144 | in³ |
| Plastic Section Modulus (Z) | 1,060 | 223 | in³ |
| Radius of Gyration (r) | 13.20 | 3.58 | in |
Torsional Properties
| Property | Value | Unit |
|---|---|---|
| Torsional Constant (J) | 75.20 | in⁴ |
| Warping Constant (Cw) | 250,000 | in⁶ |
| Distance Between Flange Centroids (ho) | 30.20 | in |
| Effective Radius (rts) | 4.22 | in |
Section Profile Summary
With Ix = 14,900 in⁴, this wide flange is well-suited for long-span floor beams and transfer girders where stiffness controls the design.
At 32" deep and 292 lb/ft, this is a heavy section typically reserved for transfer girders, long-span roof trusses, and heavily loaded columns in high-rise construction. Shipping and handling require crane erection planning.
Key Design Checks (AISC 360)
| Check | Formula | This Section |
|---|---|---|
| Plastic moment | Mp = Zx × Fy | 53,000 kip-in |
| Deflection | Δ = 5wLâÃÂô/(384EIx) | Use Ix = 14,900 in⁴ |
| Torsion | St. Venant = GJ/L | J = 75.2 in⁴ |
| Column buckling | KL/r âÃÂàFcr | r_x = 13.2 in |
Design Notes
- Compactness: Most W-shapes in ASTM A992 satisfy the compact limits in AISC 360 Table B4.1b for flexure (ÃÂû âÃÂä ÃÂûp). This allows full plastic moment Mp development before local buckling occurs.
- Flange local buckling (FLB): The flange slenderness ratio bf/2tf is compared against ÃÂûpf = 0.38âÃÂÃÂ(E/Fy) âÃÂà9.15 for compact sections.
- Web local buckling (WLB): h/tw is checked against ÃÂûpw = 3.76âÃÂÃÂ(E/Fy) âÃÂà90.5 for flexure, and a more restrictive limit for uniform compression.
- Lateral-torsional buckling (LTB): Lp âÃÂà151.7 in (plastic limit). For unbraced lengths âÃÂä Lp, the full plastic moment is available. Between Lp and Lr, linear interpolation per AISC 360 Eq. F2-2 applies.
Verification (AISC 360): All designs using this section must be verified by a licensed Professional Engineer. Before finalizing member selection, check beam-column interaction (P-M), lateral-torsional buckling, serviceability deflections, and all connection limit states. See Engineering Disclaimer.
Worked Example: Office floor beam — w30x292
Scenario: Office floor in a commercial building — typical open-plan layout. Simply supported wide flange, 60 ft span, 8 ft tributary width. Service loads: 50 psf dead + 50 psf live (800 plf total).
Given:
- Span L = 60 ft (720 in)
- Total service load w = 800 plf
- Live load portion w_L = 400 plf
- Section w30x292: Ix = 14,900 in⁴, Sx = 930 in³, Zx = 1,060 in³
- Steel: ASTM A992, Fy = 50 ksi, E = 29,000 ksi
- Design moment strength: φMn = 0.9 × Zx × Fy = 3,975 kip-ft
Step 1 — Live load deflection check:
Δ_LL = 5 w_L LâÃÂô / (384 E Ix)
Δ_LL = 5 × (400/12) × (720)âÃÂô / (384 × 29,000,000 × 14,900)
Δ_LL = 0.27 in
Step 2 — Allowable deflection (IBC Table 1604.3, L/240):
Δ_allow = L / 240 = 720 / 240 = 3.00 in
Step 3 — Dead + live deflection:
Δ_total = 0.54 in
Step 4 — Design check:
âÃÂàLive load deflection is within the L/240 limit.
The required flexural strength at ultimate is approximately w_u LÃÂò/8. With factored loads 1.2D + 1.6L, verify φMn = 3,975 kip-ft is adequate per AISC 360 Chapter F. Also check shear capacity (φVn = 0.6 Fy Aw × 0.9) and bearing at supports.
Related Resources
- Steel Beam Capacity Calculator
- Column Capacity Calculator
- Beam Deflection Calculator
- Section Properties Calculator
- Steel Grades Reference
- Section Comparison Tool
Design Resources
- Section Properties Lookup — Compare with similar sections
- Steel Beam Sizes Reference — Standard beam dimensions
Educational reference only. Verify all section properties against the current AISC 360 Manual and mill certificates before design. Results are PRELIMINARY — NOT FOR CONSTRUCTION.