What is the EN 1993-1-8 effective area method for baseplate design?

The effective area method per EN 1993-1-8 §6.2.5 defines the effective bearing area A_eff under a column baseplate using a T-stub effective cantilever length c = t_p·√(fy/(3·f_jd·γM0)). The bearing resistance is N_Rd = f_jd · A_eff, where f_jd = β_j · k_j · fcd is the design bearing strength of the grout/concrete interface.

How is the concrete bearing strength f_jd calculated for a baseplate?

Per EN 1993-1-8 §6.2.5(7): f_jd = β_j · k_j · fcd, where β_j = 2/3 (grout/joint factor), k_j = √(A_c1/A_c0) ≤ 3.0 is the area concentration factor from EN 1992-1-1 §6.7 (ratio of foundation footprint to plate area), and fcd = fck/γC is the concrete design strength.

How does EN 1993-1-8 handle combined N_Ed + M_Ed loading on a baseplate?

Per EN 1993-1-8 §6.2.8, the governing case depends on eccentricity e = M_Ed/N_Ed. If e ≤ L_p/6 (kern), the full plate is in compression and no anchor tension is required. For large eccentricity (e > L_p/6), anchor bolts carry tension F_t,Ed and the moment resistance is M_Rd = F_t,anchor,Rd · z_eff, where z_eff is the lever arm from the compression centroid to the anchor bolt row.

What checks does a column baseplate design calculator perform?

A complete EN 1993-1-8 baseplate design check covers: (1) concrete bearing utilisation N_Ed/N_Rd §6.2.5, (2) moment capacity M_Ed/M_Rd §6.2.8, (3) anchor bolt tension F_t,Ed/F_t,Rd per Table 3.4, (4) concrete pull-out cone per EN 1992-4 §7.2, (5) shear transfer via friction μ·N_c + anchor shear §6.2.2, and (6) column flange/web to plate fillet weld §4.5.3.

Free Tool · EN 1993-1-8 §6.2.5 + §6.2.8 · No Sign-up

EN 1993-1-8 Column Baseplate Design Calculator

Concrete bearing f_jd with §6.7 area ratio α, T-stub effective cantilever c, combined N_Ed + M_Ed + V_Ed per §6.2.8, anchor bolt tension (Table 3.4) + pull-out cone (EN 1992-4 §7.2), shear friction, and column-to-plate weld check. Compression, large eccentricity, and uplift cases. No sign-up.

Column Section

Column section

Steel grade

National Annex

Baseplate Geometry

L_p (mm)

B_p (mm)

t_p (mm)

a_w weld (mm)

Foundation

L_f (mm)

B_f (mm)

Concrete grade

Anchor Bolts

Anchor grade

Anchor diameter

n anchors (tension side)

h_ef (mm)

e_anchor — edge dist. from plate edge (mm)

Design Loads

N_Ed (kN) — compression + / uplift −

M_Ed (kN·m) — bending moment

V_Ed (kN) — shear force

N_Ed negative = uplift (tension). Set N_Ed < 0 for pure uplift case.

Orange = baseplate Green = effective T-stub area Blue = anchor bolts

Design Results

39%

PASS ✓

⚠ Partial compression — anchor tension may be mobilised — e=160 mm

EN 1993-1-8 §6.2.5 + §6.2.8 — Key Intermediates

f_jd = β_j·k_j·f_cd 22.22 N/mm²

α=1.667 k_j=1.667 β_j=0.67 f_cd=20 MPa

c = t_p·√(f_yp/(3·f_jd·γ_M0)) 50.78 mm

A_eff (effective bearing area) 69276.73 mm²

Axial bearing resistance N_Rd = f_jd·A_eff 1539.48 kN

Lever arm z_eff 371.5 mm

Anchor tension capacity F_t,Rd (total) 813.31 kN

Pull-out cone capacity N_Rd,c (total) 1240.9 kN

Moment resistance M_Rd 302.15 kN·m

Utilisation Checks — EN 1993-1-8 §6.2.5 + §6.2.8

Check	Resistance	Demand	η	Result
Concrete bearing (§6.2.5)	1539.48 kN	500 kN	32.5%	✓ PASS
Moment capacity (§6.2.8)	302.15 kN·m	80 kN·m	26.5%	✓ PASS
Anchor bolt tension (Table 3.4)	813.31 kN	6.73 kN	0.8%	✓ PASS
Anchor pull-out cone (EN 1992-4)	1240.9 kN	6.73 kN	0.5%	✓ PASS
Shear transfer (friction + bolts)	1234.42 kN	50 kN	4.1%	✓ PASS
Column-to-plate weld (§4.5.3)	220.68 N/mm²	85.98 N/mm²	39%	✓ PASS

§6.2.5(7): f_jd = β_j·k_j·fcd, β_j = 2/3, k_j = α = min(√(A_c1/A_c0), 3) per EN 1992-1-1 §6.7 · §6.2.8: M_Rd = F_t,anchor·z_eff · EN 1992-4 §7.2: N_Rk,c = 8.9·fck^0.5·h_ef^1.5

Export calculation report

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Related Tools

→ Anchor Bolt Design — EN 1992-4 →

→ Bolt Capacity — EN 1993-1-8 Table 3.4

→ Fillet Weld Sizing — EN 1993-1-8 §4.5

→ Beam Moment Capacity — EN 1993-1-1

→ Bolted Splice Plate

→ End Plate Moment Connection

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