(M_Ed, per m = 4473 / 7 = 639 , \textkNm/m) [ A_s,req = \frac639\times10^60.87\times500\times0.9\times1409 = \frac639\times10^6551,000 \approx 1160 , \textmm^2/\textm ]
Overturning moment includes wind, eccentric lifting, and dynamic effects. 4. Foundation Sizing – Bearing Pressure Check (SLS) 4.1 Self-weight of foundation [ W_conc = L \times B \times t \times \gamma_conc = 6.0 \times 6.0 \times 1.2 \times 25 = 1080 , \textkN ] Soil above base (ignore – removed during excavation and not replaced for simplicity – conservative). 4.2 Total vertical load (SLS) [ N_total = V_k + W_conc = 850 + 1080 = 1930 , \textkN ] 4.3 Eccentricity [ e = \fracM_kN_total = \frac42001930 = 2.176 , \textm ] Tower Crane Foundation Design Calculation Example
This exceeds (q_allow = 150 , \textkPa) → or must be deepened or widened. 4.5 Revised foundation size Try (L = B = 7.0 , \textm, t = 1.5 , \textm): (M_Ed, per m = 4473 / 7 =
For 7 m square, 2.5 m projection, (M_Ed \approx 0.5 \times q_max \times B \times c^2 = 0.5 \times 204.5 \times 7 \times 6.25 = 4473 , \textkNm) – that’s total moment. t = 1.5