| S235 | 235 | 1.000 | Reference grade | | S275 | 275 | 0.924 | Standard UK building grade | | S355 | 355 | 0.814 | Standard UK grade for efficiency | | S420 | 420 | 0.748 | Higher-strength, less common | | S460 | 460 | 0.715 | High-strength, special applications |
The fy value used for classification is the nominal yield strength for the relevant thickness range per EN 10025-2. For plates thicker than 40 mm, the reduced fy must be used (e.g., S355 with t > 40 mm: fy = 335 MPa, epsilon = sqrt(235/335) = 0.838).
Outstand Flange Limits -- Table 5.2 Sheet 2
For hot-rolled I-section flanges (outstand compression element):
| Class | Limit (c/tf) | S235 | S275 | S355 | S460 |
|---|---|---|---|---|---|
| 1 | <= 9 x epsilon | 9.0 | 8.32 | 7.33 | 6.44 |
| 2 | <= 10 x epsilon | 10.0 | 9.24 | 8.14 | 7.15 |
| 3 | <= 14 x epsilon | 14.0 | 12.94 | 11.39 | 10.01 |
Where c is the flange outstand from the web face to the flange tip: c = (b - tw)/2 - r (for rolled I-sections)
For the compression flange of a section required to form a plastic hinge in seismic design (EN 1998-1), the more restrictive limit of 7 x epsilon applies to ensure adequate low-cycle fatigue capacity.
Web Limits in Pure Bending -- Table 5.2 Sheet 1
For I-section webs subject to pure bending (stress ratio psi = -1, i.e., tension at one face, compression at the other):
| Class | Limit (cw/tw) | S235 | S275 | S355 | S460 |
|---|---|---|---|---|---|
| 1 | <= 72 x epsilon | 72.0 | 66.5 | 58.6 | 51.5 |
| 2 | <= 83 x epsilon | 83.0 | 76.7 | 67.6 | 59.4 |
| 3 | <= 124 x epsilon | 124.0 | 114.6 | 100.9 | 88.7 |
The pure bending case applies to beam webs at midspan where the axial force is zero.
Web Limits in Pure Compression -- Table 5.2 Sheet 1
For I-section webs subject to uniform compression (stress ratio psi = +1):
| Class | Limit (cw/tw) | S235 | S275 | S355 | S460 |
|---|---|---|---|---|---|
| 1 | <= 33 x epsilon | 33.0 | 30.5 | 26.9 | 23.6 |
| 2 | <= 38 x epsilon | 38.0 | 35.1 | 30.9 | 27.2 |
| 3 | <= 42 x epsilon | 42.0 | 38.8 | 34.2 | 30.0 |
For column webs subject to axial compression, the compression limit applies. Note that the compression limits are substantially tighter than the bending limits (33 vs 72 for Class 1), because the unstiffened web is much more susceptible to local buckling under uniform compression than under the stabilising tension field present in bending.
Web Limits in Combined Bending and Compression
For webs under combined axial compression and bending moment, the classification limits depend on the stress ratio alpha (alpha = proportion of web depth in compression):
alpha = (sigma_1 - sigma_2) / (sigma_1) when both stresses are compressive, or alpha = (sigma_1) / (sigma_1 - sigma_2) when sigma_2 is tensile.
For alpha > 0.5: Class 1 limit = 396 x epsilon / (13 x alpha - 1) For alpha <= 0.5: Class 1 limit = 36 x epsilon / alpha
The Class 2 and Class 3 limits follow similar formulas with different numerical coefficients per Table 5.2.
Classification of Standard UK Sections
The following table classifies common UK sections in S355 and S275:
| Section | c/tf | cw/tw | S355 Flange Class | S355 Web Class | Overall Class (flexure) | Overall Class (compression) |
|---|---|---|---|---|---|---|
| 533 x 210 x 92 UB | 5.62 | 46.3 | 1 (<= 7.33) | 1 (<= 58.6) | 1 | Web: 1 (<= 26.9? No: 46.3 > 26.9) -- Class 3 |
| 457 x 191 x 67 UB | 6.04 | 43.2 | 1 | 1 | 1 | Web: Class 3 |
| 406 x 178 x 54 UB | 4.82 | 51.7 | 1 | 1 | 1 | Web: Class 3 |
| 356 x 171 x 51 UB | 5.95 | 37.5 | 1 | 1 | 1 | Web: Class 3 |
| 254 x 254 x 89 UC | 7.60 | 21.8 | 2 (<= 8.14) | 1 (<= 26.9) | 2 | 1 (<= 26.9) |
| 305 x 305 x 137 UC | 5.38 | 18.2 | 1 | 1 | 1 | 1 |
| 152 x 152 x 37 UC | 6.82 | 14.3 | 1 | 1 | 1 | 1 |
| 203 x 203 x 46 UC | 7.25 | 16.2 | 1 | 1 | 1 | 1 |
For flexure, most UK UB sections are Class 1 -- the flange limits are always satisfied and the web in bending is rarely critical. For compression (column webs), UB sections are typically Class 3 or worse because the web cw/tw is large relative to the compression limits. UC sections, with their thicker webs, achieve Class 1 or 2 in both flexure and compression.
Practical Implications of Classification
The classification directly affects the design resistance used in member checks:
- Class 1 or 2: M_c,Rd = W_pl x fy / gamma_M0; full plastic moment capacity.
- Class 3: M_c,Rd = W_el x fy / gamma_M0; elastic moment capacity only (typically 10-20% lower than plastic).
- Class 4: M_c,Rd = W_eff x fy / gamma_M1; effective section, further reduced and with a higher partial factor.
For a 533 x 210 x 92 UB in S355: W_pl,y = 2,060 cm^3 vs W_el,y = 1,800 cm^3. The plastic section modulus is 14.4% larger than the elastic. Using Class 1 allows this 14.4% gain in bending resistance at no increase in weight -- a significant material efficiency.
UK National Annex
The UK NA to BS EN 1993-1-1 does NOT modify Table 5.2. The recommended slenderness limits are adopted in full. The UK NA does not impose any additional restrictions on section classification for UK building structures beyond the standard Eurocode provisions.
For bridge structures to BS EN 1993-2, the UK NA imposes more restrictive classification requirements for certain details in fatigue-critical locations, but these are specific to the bridge annex and do not modify the general Table 5.2 limits.
Design Resources
- UK Steel Grades Reference -- EN 10025-2 grade selection
- UK Steel Properties -- fy, fu tables
- UK UC and UB Section Properties -- Dimensions and section properties
- UK Beam Design Guide -- Flexure, shear, and LTB
- All UK Steel Design References -- complete library
Frequently Asked Questions
What are the Class 1 flange limits for a UB in S355?
For outstand flanges in compression, the Class 1 limit is c/tf <= 9 x epsilon = 9 x 0.814 = 7.33. Most UK UB sections satisfy this comfortably: 533 x 210 x 92 UB has c/tf = 5.62, and 457 x 191 x 67 UB has c/tf = 6.04. The only UK sections that approach the Class 1 flange limit are very heavy UC sections with thick flanges (e.g., 356 x 406 x 634 UC with tf = 77 mm and c/tf approximately 3.5 -- which is actually well within the limit because of the proportionally wider flange outstand).
Why are UB sections typically Class 3 for axial compression?
UB sections have slender webs (high cw/tw) to provide bending efficiency with minimal weight. Under pure compression, the Class 1 web limit for S355 is 26.9. A 457 x 191 x 67 UB has cw/tw = 43.2, which exceeds 26.9 but is below the Class 3 limit of 34.2 -- actually wait, 43.2 > 34.2, so it is Class 4 for pure compression. This means UB sections used as columns (with dominant axial load) must use effective section properties for the web, reducing the axial capacity. For this reason, UC sections are preferred for columns -- their thicker webs keep cw/tw low.
Does the UK NA modify the Table 5.2 classification limits?
The UK National Annex to BS EN 1993-1-1 adopts Table 5.2 without modification. The classification limits are identical to the Eurocode recommended values. The UK NA does not impose any additional restrictions or relaxations on section classification for UK building design.
How is classification affected when t > 40 mm?
For elements thicker than 40 mm, EN 10025-2 specifies reduced yield strengths. For S355 with t > 40 mm and <= 80 mm: fy = 335 MPa. This changes epsilon from sqrt(235/355) = 0.814 to sqrt(235/335) = 0.838. The classification limits INCREASE slightly (e.g., Class 1 flange limit from 7.33 to 7.54), but the resistance decreases because fy is lower. The net effect on the design is a reduced capacity despite the marginally relaxed classification limits.
Educational reference only. All design values are per BS EN 1993-1-1:2005 + UK National Annex and BS EN 10025-2:2019. Verify all values against the current editions of the standards and the applicable National Annex for your project jurisdiction. Designs must be independently verified by a Chartered Structural Engineer registered with the Institution of Structural Engineers (IStructE) or the Institution of Civil Engineers (ICE). Results are PRELIMINARY -- NOT FOR CONSTRUCTION without independent professional verification.