This paper studies and analyzes tall buildings with shell and flat roof responses designed for gravity and earthquake loads in different zones having different soil profiles. These tall buildings having two different heights and different configurations are simulated with different load combinations. The responses of the simulated structural models with flat and shell roofs are studied and analyzed. These responses draw recommendations and guidelines for preliminary design of structurally efficient and reliable tall buildings with shell roof in earthquake zones. Five different earthquake zone factors (Z1 - Z5) along with the five different soil profiles (S1 - S5) are selected in this study. The non-linear dynamic response of buildings was obtained using three simulated models of buildings; square/rectangular, circular, and tube-shaped building. Total of 12 building models, four under each category, are analyzed using the finite element software (STAAD pro) subjected to the gravity as well as earthquake loading defined by UBC and IBC codes. Each building model is analyzed with two different story heights; which are 120 meters for 30 stories and 72 meters for 18 stories respectively. Horizontal and vertical displacement comparison is made among the flat roof and shell roof building for 32 and 18 stories building satisfying the ACI code of design requirement and drift index of 1/500 (0.002). The results showed that the drift index value for all the studied buildings is close to 0.002. All the maximum horizontal and vertical deflections occur under the earthquake zone-5 (0.40 gravitational acceleration) with soil profile-5 (Soft soil). The shell roof slab with less thickness than the flat roof slab did satisfy the horizontal and vertical deflection limits, therefore, it is more economical than the flat roof slab.
The lateral displacement or drift of structural systems during an earthquake has an important impact on their potential failure. The probability of failure of structures is therefore reduced by limiting their lateral displacements or drifts. Drift limitations are currently imposed by seismic design codes, such as Uniform building Code (UBC) [
Al-Ansari [
The acceptable range for the drift index of conventional structures lies between the values of 0.002 and 0.005 (that is approximately 1/500 to 1/200) [
This paper studies and analyzes tall buildings with shell roof responses designed for gravity and seismic loads in different zones having different soil profiles. These tall buildings having different heights and with different configurations are simulated with different load combinations. Five different zone factors (Z1 - Z5) along with the five different soil profiles (S1 - S5) used in this study are listed in
Sr. No | Soil Type (S) | Seismic Factors (Z) |
---|---|---|
1 | Hard Rock (S1) | 0.075 gravitational acceleration (Z1) |
2 | Rock (S2) | 0.150 gravitational acceleration (Z2) |
3 | Very dense soil and soft rock (S3) | 0.20 gravitational acceleration (Z3) |
4 | Stiff soil (S4) | 0.30 gravitational acceleration (Z4) |
5 | Soft soil (S5) | 0.40 gravitational acceleration (Z5) |
The non-linear dynamic response of buildings was obtained using three simulated models of buildings; square/rectangular, circular, and tube with different heights (
Each model building is analyzed using the computer software (STAAD Pro) to find the vertical and horizontal displacements of the flat shaped roof and to compare the results with the dome shaped roof of same model building under the seismic loading conditions having different soil profiles. Each model building is analyzed with two different story heights; which are 120 meters for 30 stories and 72 meters for 18 stories respectively.
The Elevation and the plan view for these three selected models; square, circular and tube-shaped buildings with different heights (120 m and 72 m) are shown in Figures 2-4 respectively.
The twelve different building models as discussed in
Horizontal and vertical displacement comparison is made between the flat roof and shell roof building for 32 and 18 stories building. The detailed results for each shaped building are discussed in this section.
This section includes the results of 18 and 30-story square building subjected to gravity and earthquake loading. The buildings, which come under this category, are SRB-S-18, SRB-F-18, SRB-S-30 and SRB-F-30.
The maximum horizontal displacement ( Δ H ( max ) ) allowed for 18-story building is ( Δ H ( max ) = H / 500 ) = 72,000/500 = 144 mm whereas the maximum vertical displacement ( Δ V ( max ) ) allowed is ( Δ V ( max ) = L / 120 ) = 5000/120 = 41.7 mm. Moreover, for the 30-story building, the maximum vertical displacement will
Sr. No | Building Code | Building type |
---|---|---|
1 | SRB-F-30 | Square/Rec Building with Flat Roof (30 stories) |
2 | SRB-S-30 | Square/Rec Building with Shell Roof (30 stories) |
3 | CB-F-30 | Circular Building with Flat Roof (30 stories) |
4 | CB-S-30 | Circular Building with Shell Roof/Dome (30 stories) |
5 | TB-F-30 | Tube shaped Building with Flat Roof (30 stories) |
6 | TB-S-30 | Tube shaped Building with Shell Roof (30 stories) |
7 | SRB-F-18 | Square/Rec Building with Flat Roof (18 stories) |
8 | SRB-S-18 | Square/Rec Building with Shell Roof (18 stories) |
9 | CB-F-18 | Circular Building with Flat Roof (18 stories) |
10 | CB-S-18 | Circular Building with Shell Roof/Dome (18 stories) |
11 | TB-F-18 | Tube shaped Building with Flat Roof (18 stories) |
12 | TB-S-18 | Tube shaped Building with Shell Roof (18 stories) |
EQ Zone | Soil Type | BUILDING MODEL (Square/Rectangular) | |||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
SRB-S-18 | SRB-F-18 | SRB-S-30 | SRB-F-30 | ||||||||||
tShell (mm) | ∆V (mm) | ∆H (mm) | tSlab (mm) | ∆V (mm) | ∆H (mm) | tShell (mm) | ∆V (mm) | ∆H (mm) | tSlab (mm) | ∆V (mm) | ∆H (mm) | ||
(1) 0.075 | 1 | 120 | −19.83 | 25.65 | 170 | −13.33 | 14.44 | 170 | −19.23 | 27.23 | 170 | −16.78 | 35.94 |
2 | 120 | −19.96 | 30.40 | 170 | −13.42 | 19.18 | 170 | −19.54 | 35.55 | 170 | −17.00 | 47.92 | |
3 | 120 | −20.03 | 32.77 | 170 | −13.46 | 21.55 | 170 | −19.70 | 39.71 | 170 | −17.14 | 53.91 | |
4 | 120 | −20.22 | 39.90 | 170 | −13.59 | 28.67 | 170 | −20.16 | 52.19 | 170 | −17.56 | 71.87 | |
5 | 120 | −20.68 | 56.53 | 170 | −13.89 | 45.31 | 150 | −20.57 | 80.72 | 170 | −18.92 | 113.80 | |
(2) 0.15 | 1 | 120 | −20.22 | 39.90 | 170 | −13.59 | 28.67 | 170 | −20.16 | 52.19 | 170 | −17.56 | 71.87 |
2 | 120 | −20.42 | 47.03 | 170 | −13.71 | 35.80 | 150 | −19.96 | 64.15 | 170 | −18.04 | 89.84 | |
3 | 120 | −20.61 | 54.15 | 170 | −13.84 | 42.93 | 150 | −20.42 | 76.58 | 170 | −18.70 | 107.81 | |
4 | 120 | −20.87 | 63.66 | 170 | −14.01 | 52.44 | 120 | −17.98 | 89.33 | 170 | −19.58 | 131.76 | |
5 | 120 | −21.41 | 83.32 | 170 | −14.35 | 71.47 | 120 | −19.03 | 121.08 | 150 | −20.09 | 178.27 | |
(3) 0.2 | 1 | 120 | −20.48 | 49.40 | 170 | −13.76 | 38.17 | 170 | −18.97 | 67.15 | 170 | −18.26 | 95.83 |
2 | 120 | −20.74 | 58.91 | 170 | −13.93 | 47.68 | 170 | −19.52 | 83.20 | 170 | −19.14 | 119.79 | |
3 | 120 | −21.01 | 68.41 | 170 | −14.09 | 57.19 | 170 | −20.06 | 99.25 | 170 | −20.03 | 143.74 | |
4 | 120 | −21.27 | 77.91 | 170 | −14.26 | 66.71 | 170 | −20.62 | 115.30 | 150 | −19.67 | 166.39 | |
5 | 120 | −21.97 | 103.47 | 170 | −14.49 | 81.00 | 150 | −20.70 | 138.41 | 120 | −18.92 | 195.70 | |
(4) 0.3 | 1 | 120 | −21.01 | 68.41 | 170 | −14.05 | 57.19 | 170 | −20.06 | 99.25 | 170 | −20.03 | 143.74 |
2 | 120 | −21.40 | 82.67 | 170 | −14.35 | 71.47 | 150 | −20.16 | 122.43 | 150 | −20.09 | 178.27 | |
3 | 120 | −21.59 | 89.79 | 170 | −14.52 | 78.62 | 150 | −20.56 | 134.42 | 150 | −20.71 | 196.10 | |
4 | 120 | −21.79 | 96.92 | 170 | −14.72 | 85.76 | 120 | −19.84 | 144.88 | 120 | −19.31 | 207.21 | |
5 | 120 | −22.80 | 132.24 | 170 | −15.37 | 101.03 | 120 | −20.11 | 153.31 | 120 | −19.31 | 207.21 | |
(5) 0.4 | 1 | 120 | −21.67 | 92.70 | 170 | −14.60 | 81.53 | 120 | −20.73 | 158.90 | 120 | −18.97 | 196.99 |
2 | 120 | −22.05 | 106.42 | 170 | −15.13 | 95.29 | 120 | −20.36 | 160.75 | 120 | −20.06 | 230.23 | |
3 | 120 | −22.05 | 106.42 | 170 | −15.13 | 95.29 | 120 | −20.36 | 160.75 | 120 | −20.06 | 230.23 | |
4 | 120 | −22.31 | 115.93 | 170 | −15.53 | 104.82 | 120 | −20.89 | 176.62 | 130 | −20.82 | 233.25 | |
5 | 130 | −23.39 | 135.50 | 170 | −15.98 | 115.47 | 120 | −20.84 | 174.92 | 120 | −19.31 | 207.21 |
remain the same (41.7 mm) while the maximum allowed horizontal displacement is ( Δ H ( max ) = H / 500 ) = 120,000/500 = 240 mm.
The Horizontal and vertical displacement for 18 and 30 stories square building (Flat and Shell Roof) are displayed in
roof shaped building with the highest value of 20.89 mm for shell roof building (SRB -S-30) under earthquake zone-5 with a soil profile-4.
The Horizontal displacement of 149.51 is recorded initially for the shell roof (SRB-S-18) building under the earthquake zone-5 with the soil profile-5. This
value is exceeding the allowable limit (144 mm) and therefore the shell thickness is increased from 120 mm to 130 mm, which gives the new horizontal deflection of 135.5 mm. The similar earthquake and soil profile conditions give the highest horizontal drift of 115.47 mm for the flat roof shaped building (SRB-F-18). Further for the 30 stories square building, the highest horizontal drift occurs in the flat roof building (SRB-F-30) with a value of 253.25 mm under the earthquake zone 5 with a soil profile-4. This value also exceeded the allowable limit (240 mm) and thus the roof thickness is increased from 120 mm to 130 mm, which gives the horizontal deflection of 237 mm.
All the horizontal and vertical displacements tend to increase as the earthquake zone increase from 1 to 5. The thickness of the shell and flat roof also varies from 120 mm to 170 mm from Earthquake zone 1 to 5 in 30 story building, whereas it remains constant of 120 mm for shell roof and 170 mm for flat roof of 18 story square building. The vertical and horizontal displacement obtained in all the four above building models is within the range of allowable horizontal and vertical displacement limits.
This section includes the result of 18 and 30-story circular building subjected to gravity and earthquake loading. The buildings, which come under this category, are CB-S-18, CB-F-18, CB-S-30 and CB-F-30.
EQ Zone | Soil Type | BUILDING MODEL (Circular) | |||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
CB-S-18 | CB-F-18 | CB-S-30 | CB-F-30 | ||||||||||
tShell (mm) | ∆V (mm) | ∆H (mm) | tSlab (mm) | ∆V (mm) | ∆H (mm) | tShell (mm) | ∆V (mm) | ∆H (mm) | tSlab (mm) | ∆V (mm) | ∆H (mm) | ||
(1) 0.075 | 1 | 120 | −36.21 | 39.17 | 150 | −8.27 | 8.75 | 120 | −19.62 | 18.78 | 170 | −19.72 | 40.74 |
2 | 120 | −36.19 | 41.62 | 150 | −8.39 | 11.65 | 120 | −19.69 | 24.87 | 170 | −19.75 | 54.31 | |
3 | 120 | −36.18 | 42.92 | 150 | −8.46 | 15.56 | 120 | −19.74 | 28.38 | 170 | −19.76 | 61.10 | |
4 | 120 | −36.15 | 47.19 | 150 | −8.63 | 21.80 | 120 | −19.88 | 39.09 | 170 | −19.81 | 81.46 | |
5 | 120 | −36.08 | 55.11 | 150 | −8.94 | 31.08 | 120 | −20.11 | 58.44 | 120 | −19.48 | 128.32 | |
(2) 0.15 | 1 | 120 | −36.15 | 46.53 | 150 | −8.52 | 17.46 | 120 | −19.85 | 37.08 | 170 | −19.81 | 81.46 |
2 | 120 | −29.22 | 50.20 | 150 | −8.51 | 21.81 | 120 | −19.96 | 46.23 | 170 | −20.68 | 101.82 | |
3 | 120 | −36.09 | 53.88 | 150 | −8.90 | 29.88 | 120 | −20.07 | 55.41 | 150 | −20.66 | 122.76 | |
4 | 120 | −36.06 | 59.16 | 150 | −9.18 | 38.24 | 120 | −20.25 | 69.15 | 120 | −20.31 | 148.58 | |
5 | 120 | −35.94 | 74.55 | 150 | −10.23 | 59.72 | 120 | −20.73 | 107.79 | 120 | −22.51 | 202.60 | |
(3) 0.2 | 1 | 120 | −36.11 | 51.43 | 150 | −8.69 | 23.26 | 120 | −20.00 | 49.29 | 150 | −20.07 | 109.12 |
2 | 120 | −36.08 | 56.34 | 150 | −8.87 | 29.06 | 120 | −20.15 | 61.5 | 120 | −19.76 | 135.07 | |
3 | 120 | −36.03 | 61.24 | 150 | −9.18 | 38.24 | 120 | −20.30 | 73.71 | 120 | −20.86 | 162.08 | |
4 | 120 | −36.00 | 66.15 | 150 | −9.63 | 47.78 | 120 | −20.46 | 86.34 | 120 | −21.96 | 189.09 | |
5 | 120 | −35.84 | 90.48 | 150 | −11.60 | 76.43 | 120 | −21.10 | 137.85 | 120 | −23.60 | 229.62 | |
(4) 0.3 | 1 | 120 | −36.03 | 61.24 | 150 | −9.07 | 34.87 | 120 | −20.30 | 73.71 | 120 | −20.86 | 162.08 |
2 | 120 | −35.98 | 68.60 | 150 | −9.41 | 43.57 | 120 | −20.53 | 92.04 | 120 | −22.52 | 202.60 | |
3 | 120 | −35.95 | 72.28 | 150 | −9.93 | 53.75 | 120 | −20.65 | 101.19 | 120 | −23.32 | 222.86 | |
4 | 120 | −35.91 | 77.97 | 150 | −10.46 | 64.50 | 120 | −20.83 | 116.37 | 150 | −24.14 | 224.12 | |
5 | 120 | −35.71 | 118.75 | 150 | −12.26 | 100.31 | 120 | −21.64 | 180.78 | 150 | −24.14 | 228.12 | |
(5) 0.4 | 1 | 120 | −35.94 | 73.78 | 150 | −9.72 | 49.70 | 120 | −20.70 | 104.91 | 150 | −23.24 | 212.52 |
2 | 120 | −35.89 | 81.12 | 150 | −10.14 | 58.08 | 120 | −20.92 | 122.55 | 150 | −24.75 | 232.41 | |
3 | 120 | −35.89 | 81.12 | 150 | −10.59 | 66.88 | 120 | −20.92 | 122.52 | 150 | −24.75 | 240.43 | |
4 | 120 | −35.83 | 90.48 | 150 | −11.06 | 76.43 | 120 | −21.10 | 137.85 | 160 | −25.80 | 238.20 | |
5 | 120 | −35.63 | 135.72 | 150 | −12.98 | 114.63 | 120 | −21.96 | 206.52 | 160 | −24.44 | 236.21 |
results of horizontal and vertical displacements for shell and flat roof circular building.
For circular shaped 18 story building, the vertical displacement values for flat and shell roof building remained constant under earthquake zones 1 to 5. The highest vertical displacement (36.21 mm) for the shell roof building (CB-S-18) occurs at earthquake zone-1 with a soil profile level-1 whereas the highest vertical displacement (12.98 mm) for the flat roof (CB-F-18) appears under earthquake zone-5 having soil profile level-5. Moreover, the vertical displacement for the 30 stories circular building lies between 19 mm to 25 mm with a highest value of 24.44 mm for flat shaped circular building (CB-F-30). The vertical displacement increases as the earthquake zone increases from 1 to zone 5 with the increase in the soil profile level 1 to 5 for the flat shaped roof building whereas, it remained almost constant for the circular shaped building in all the earthquake zones. In addition, the thirty stories circular building has less vertical displacement compared to 18 stories and is also under the allowable vertical displacement limit.
The horizontal displacement for 18 story circular building increases with the increase in the earthquake zone 1 to 5. Circular building with a shell roof has more value for the horizontal displacement compared to the flat roof circular building.
The maximum horizontal displacement (135.72 mm) appears under the earthquake zone-5 with a soil profile-5. However, for the 30 stories circular building, the shell roof building has much less horizontal displacement compared to flat roof where the maximum horizontal disp. value of 238.20 mm is recorded with slab thickness of 160 mm under the earthquake zone 5. In the earthquake zone-5, the horizontal displacement obtained in all soil profiles are exceeding the allowable limit of 240 mm and therefore the slab thickness needs to be increased accordingly.
The Horizontal and vertical displacement for 18 and 30 stories circular building (Flat and Shell Roof) are displayed in
This section includes the result of 18 and 30-story circular building subjected to gravity and earthquake loading. The buildings, which come under this category, are TB-S-18, TB-F-18, TB-S-30 and TB-F-30.
For tube shaped building, the vertical disp. for 18 stories building lies within 15 mm to 23 mm for flat and shell roof buildings. Shell roof structure (TB-S-18) has comparatively more vertical disp. compared to flat roof structure for 18 story tube shaped building with a highest vertical disp. value of 22.44 under the earthquake zone-5 having the soil profile of 4. The vertical drift for 30-story tube
EQ Zone | Soil Type | BUILDING MODEL (Tube Shaped) | |||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
TB-S-18 | TB-F-18 | TB-S-30 | TB-F-30 | ||||||||||
tShell (mm) | ∆V (mm) | ∆H (mm) | tSlab (mm) | ∆V (mm) | ∆H (mm) | tShell (mm) | ∆V (mm) | ∆H (mm) | tSlab (mm) | ∆V (mm) | ∆H (mm) | ||
(1) 0.075 | 1 | 120 | −17.33 | 19.34 | 150 | −15.76 | 17.79 | 120 | −19.52 | 48.031 | 170 | −20.07 | 46.44 |
2 | 120 | −17.60 | 25.33 | 150 | −15.85 | 23.65 | 120 | −20.09 | 63.67 | 170 | −20.32 | 61.90 | |
3 | 120 | −17.73 | 28.33 | 150 | −15.89 | 26.60 | 120 | −20.36 | 71.50 | 170 | −20.46 | 69.63 | |
4 | 120 | −18.13 | 37.31 | 150 | −16.03 | 35.42 | 120 | −21.22 | 94.96 | 140 | −19.55 | 92.28 | |
5 | 120 | −19.08 | 58.28 | 150 | −16.34 | 56.02 | 120 | −23.20 | 149.72 | 130 | −20.51 | 144.42 | |
(2) 0.15 | 1 | 120 | −18.13 | 37.31 | 150 | −16.03 | 35.42 | 120 | −21.22 | 94.96 | 120 | −18.60 | 91.07 |
2 | 120 | −18.54 | 46.30 | 150 | −16.16 | 44.25 | 120 | −22.06 | 118.43 | 120 | −19.22 | 113.83 | |
3 | 120 | −18.95 | 55.28 | 150 | −16.29 | 53.08 | 120 | −22.92 | 141.90 | 120 | −20.26 | 136.82 | |
4 | 120 | −19.48 | 67.26 | 150 | −16.47 | 64.85 | 120 | −24.04 | 173.19 | 120 | −21.25 | 167.21 | |
5 | 120 | −20.56 | 91.22 | 150 | −16.83 | 88.39 | 120 | −26.31 | 235.77 | 120 | −23.25 | 227.99 | |
(3) 0.2 | 1 | 120 | −18.67 | 49.29 | 150 | −16.20 | 47.19 | 120 | −22.34 | 126.26 | 120 | −19.47 | 121.41 |
2 | 120 | −19.21 | 61.27 | 150 | −16.38 | 58.96 | 120 | −23.47 | 157.55 | 120 | −20.42 | 151.75 | |
3 | 120 | −19.75 | 73.25 | 150 | −16.65 | 70.73 | 120 | −24.61 | 188.84 | 120 | −21.41 | 182.09 | |
4 | 120 | −20.29 | 85.23 | 150 | −16.74 | 82.51 | 120 | −25.74 | 220.13 | 120 | −22.39 | 212.43 | |
5 | 120 | −21.10 | 103.20 | 150 | −17.19 | 100.16 | 150 | −27.44 | 237.07 | 150 | −23.87 | 227.94 | |
(4) 0.3 | 1 | 120 | −19.75 | 73.25 | 150 | −16.56 | 70.73 | 120 | −24.61 | 188.84 | 100 | −20.29 | 178.21 |
2 | 120 | −20.56 | 91.22 | 150 | −16.83 | 88.39 | 120 | −26.31 | 235.77 | 100 | −21.67 | 222.74 | |
3 | 120 | −20.96 | 100.21 | 150 | −17.06 | 97.22 | 150 | −27.16 | 199.42 | 150 | −22.38 | 163.30 | |
4 | 120 | −21.36 | 109.19 | 150 | −17.43 | 106.0 | 150 | −28.01 | 217.47 | 150 | −23.08 | 178.10 | |
5 | 120 | −21.68 | 116.23 | 150 | −17.75 | 113.88 | 150 | −28.01 | 217.47 | 150 | −23.08 | 178.10 | |
(5) 0.4 | 1 | 120 | −21.13 | 103.87 | 150 | −17.21 | 100.82 | 150 | −26.91 | 200.78 | 150 | −22.26 | 163.80 |
2 | 120 | −21.90 | 121.17 | 150 | −17.91 | 117.82 | 150 | −28.43 | 234.53 | 150 | −23.54 | 191.50 | |
3 | 120 | −21.90 | 121.17 | 150 | −17.91 | 117.82 | 150 | −28.43 | 234.53 | 150 | −23.54 | 191.50 | |
4 | 120 | −22.44 | 133.15 | 150 | −18.39 | 129.59 | 150 | −29.50 | 238.81 | 150 | −24.42 | 210.60 | |
5 | 120 | −22.42 | 132.63 | 150 | −18.42 | 130.1 | 120 | −27.75 | 219.23 | 150 | −23.26 | 185.70 |
building is similar to 18 story building ranging from 19 mm to 30 mm with a maximum of 29.50 mm for (TB-S-30). This maximum displacement value also appeared under the earthquake zone 5 with a soil profile of 4. It can be noticed that for both 18 and 30 story building, the vertical drift is comparatively more in the shell roof structure than the flat shaped ones and are within the permissible limits (41.67 mm).
For the horizontal displacement, it is observed that both shell and flat roof buildings give similar results in all the earthquake zones. The horizontal displacement values of 18 story-building increases with the increase in the earthquake zone 1 to 5 with the increase of soil profile 1 to 5. The maximum horizontal displacement value for 18-story building occurs at the shell roof structure (TB-S-18) with a value of 133.15 mm. For the 30 stories tube shaped building, the horizontal displacement exceeds the allowable deflection limit (240 mm) under the earthquake zones 4 and 5 and therefore the thickness of the slab increased from 120 mm to 150 mm accordingly to obtain the results within the allowable limits.
The Horizontal and vertical displacement for 18 and 30 stories tube-shaped building (Flat and Shell Roof) are displayed in
The drift indices for all the three studied structural models are displayed in
The summary of horizontal and vertical displacements obtained for all the three simulated models (square, circular and tube-shaped building) are discussed in this section. The thicknesses for the shell and flat roof for all stimulated models are also compared. All the maximum horizontal and vertical deflections occur under the earthquake zone-5 (0.40 gravitational acceleration) with soil profile-5 (Soft soil), therefore a comparison is made between the slab/shell thickness with the horizontal displacement of each simulated building under earthquake zone-5.
It can be observed that shell thickness of square building (120 mm) for 18 story is less compared to flat roof building (170 mm). For thirty story building models, shell and flat roof building models have same slab/shell thickness but the horizontal displacement of shell roof has less value compared to the flat roof structure.
Sr. No | Building Code | Max Horizontal Displacement (∆H(max))/(mm) | Height of Building (H) (mm) | Drift Index (∆H(max))/H |
---|---|---|---|---|
1 | SRB-F-30 | 233.25 | 120,000 | 0.0019 |
2 | SRB-S-30 | 176.62 | 120,000 | 0.0015 |
3 | CB-F-30 | 288.65 | 120,000 | 0.0024 |
4 | CB-S-30 | 206.53 | 120,000 | 0.0017 |
5 | TB-F-30 | 316.03 | 120,000 | 0.0026 |
6 | TB-S-30 | 335.27 | 120,000 | 0.0028 |
7 | SRB-F-18 | 115.47 | 72,000 | 0.0016 |
8 | SRB-S-18 | 135.50 | 72,000 | 0.0019 |
9 | CB-F-18 | 114.63 | 72,000 | 0.0016 |
10 | CB-S-18 | 135.72 | 72,000 | 0.0019 |
11 | TB-F-18 | 130.10 | 72,000 | 0.0018 |
12 | TB-S-18 | 132.63 | 72,000 | 0.0018 |
The relationship of slab/shell thickness to the horizontal displacement of tube-shaped building is shown in
The vertical displacement for all the studied buildings is within the limit of maximum vertical displacement ( Δ V ( max ) ) i.e. 41.66 mm. This maximum vertical displacement is shown as a reference line in red color in
This paper studies and analyzes tall buildings with shell and flat roof responses designed for gravity and seismic loads in different zones having different soil profiles. These tall buildings having two different heights and with different configurations are simulated with different load combinations. Five different earthquake zone factors (Z1 - Z5) along with the five different soil profiles (S1 - S5) are selected in this study.
The non-linear dynamic response of buildings was obtained using three simulated models of buildings; square, circular, and tube-shaped building with two different heights. Twelve building models, four under each category, are analyzed using the finite element software (STAAD pro) subjected to the gravity as well as earthquake loading defined by UBC and IBC codes. The responses of the simulated structural models with flat and shell roofs are studied and analyzed. These responses drew recommendations and guidelines for preliminary design of structurally efficient and reliable tall buildings with shell roof in earthquake zones.
Horizontal and vertical displacement comparison is made among the flat roof and shell roof building for 30 and 18 stories building satisfying the ACI code of design requirement and drift index of 1/500 (0.002). The drift index value for all the simulated buildings is close to 0.002. Shell roof structure has drift index values less than 0.002 for 30 stories building whereas the values are close to 0.002 for 18 stories building. Moreover, for the flat roof building, the drift index value is near to 0.002 for 30 as well as for 18 stories buildings.
All the maximum horizontal and vertical deflections occur under the earthquake zone-5 (0.40 gravitational acceleration) with soil profile-5 (Soft soil). The vertical displacements for shell and flat roof structures are close to each other for 18 and 30 story buildings. The horizontal displacement values obtained in all of three simulated models are within the allowable limits satisfying the ACI code of design requirement. For 18 story buildings, the horizontal displacements for square, circular and tube-shaped buildings are almost similar but the thickness of slabs having shell roof are lesser compared with the flat roof structure. Moreover, for 30-story building, the shell roof thickness has lower values compared to flat roof building. In addition, the horizontal deflection is lesser in the shell roof structure compared to the flat ones. Circular and square shaped building has the horizontal deflection within the allowable limits having lesser slab thickness compared to the flat shaped buildings. However, the tube-shaped building needs higher slab thickness to get the horizontal deflection within the permissible limits. The shell roof slab in all simulated models with less thickness than the flat roof slab did satisfy the horizontal and vertical deflection limits, therefore, it is more economical than the flat roof slab.
The authors declare no conflicts of interest regarding the publication of this paper.
Al-Ansari, M.S. and Afzal, M.S. (2019) Shell Roof of Tall Buildings in Earthquake Zones. Open Journal of Earthquake Research, 8, 223-238. https://doi.org/10.4236/ojer.2019.84013