| Member Type | Depth-to-Span Ratio | Example (40 ft span) | | :--- | :--- | :--- | | (simple span) | Depth = Span / 20 to Span / 24 | 40 ft / 20 = 2 ft deep (W24) | | Roof Beams (light load) | Depth = Span / 24 to Span / 28 | 40 ft / 24 = 1.67 ft (W18 or W21) | | Cantilever Beams | Depth = Span / 10 to Span / 12 | 10 ft cant. / 10 = 1 ft (W12) | | Steel Columns | Width ≈ 1/30 to 1/40 of height | 15 ft column → ~6" wide (W6 or W8) | | Trusses | Depth = Span / 10 to Span / 15 | 60 ft truss → 4–6 ft deep | 5. Simplified Flexural Design (Beams) Plastic moment capacity (simplified):
Mp = Zx × Fy
| Load Type | Simplified Value | Notes | | :--- | :--- | :--- | | Dead Load (DL) | Assume 50–100 psf (2.4–4.8 kN/m²) for steel framing + deck | Adjust for concrete topping | | Live Load (LL) | Use building code minimum (e.g., 40 psf for offices) | Do not reduce for preliminary sizing | | Wind Load | 15–25 psf (0.72–1.2 kN/m²) for low-rise | Use simplified envelope method | | Snow Load | 20–30 psf (1.0–1.5 kN/m²) for moderate climates | Always check local maps | simplified design of steel structures pdf
Simplify by using I_req = (5 × w × L³) / (384 × E × Δ_allow) | Member Type | Depth-to-Span Ratio | Example
Fe = (π² × E) / (KL/r)²
An Introductory Guide to Principles and Practice 1. Introduction The design of steel structures is often perceived as complex due to code requirements and mathematical rigor. Simplified design focuses on understanding fundamental load paths, basic member behavior, and practical rules of thumb before diving into detailed specifications (such as AISC, Eurocode 3, or IS 800). Introduction The design of steel structures is often
Δ = (5 × w × L⁴) / (384 × E × I)