What if the water tank is placed directly above Column 1, will Column 1 still be stable? If not stable, what would you recommend doing to resolve this issue? DESIGN DESCRIPTION To construct a warehouse, the frame system shown in Figure 1 has been adopted. As an engineer, your task is to analyse the mid frame, highlighted in RED. Column 3 Column 1 Beam 1 Columb 2 Slab 1 Beam 1 Slab 2 Beam 2 Beam 3 Column 2 5 m 5 m 5 m Column 3 Column 1 8 m (a) Transfer of self-weight of Slabs 1 and 2 to surrounding beams (simplified case) Beam 1 Figure 1 A warehouse frame system The detailed information of the structural components is provided as follows: Slabs 1 and 2 are made of in-situ cast reinforced concrete and have a thickness of 150 mm (Figure 2). For simplicity, we assume that half the weight of each slab is transferred to Beam 1 (as shown in Figure 2). In addition, a water tank full of water with a weight of 1042 kg (1000 L of water plus weight of the tank) will be installed in the middle of Beam 1 (Figure 2). All the beams are made of reinforced concrete and have a standard size of 225 mm x 600 mm. Note that the density of reinforced concrete is 2500 kg/m³. Half of slab 1 Half of slab 2 (b) Transfer of self-weight of Slabs 1 and 2 to Beam 1 Figure 2 Load transfer from slabs to beams in the warehouse frame system A Beam 1 8 m 600 mm 5 m 125 mm 225 mm Beam cross section Column cross section C Column 1 D Column 2 Figure 3 The middle frame

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What if the water tank is placed directly above Column 1, will Column 1 still be
stable? If not stable, what would you recommend doing to resolve this issue?
Transcribed Image Text:What if the water tank is placed directly above Column 1, will Column 1 still be stable? If not stable, what would you recommend doing to resolve this issue?
DESIGN DESCRIPTION
To construct a warehouse, the frame system shown in Figure 1 has been
adopted. As an engineer, your task is to analyse the mid frame, highlighted in
RED.
Column 3
Column 1
Beam 1
Columb 2
Slab 1
Beam 1
Slab 2
Beam 2
Beam 3
Column 2
5 m
5 m
5 m
Column 3
Column 1
8 m
(a) Transfer of self-weight of Slabs 1 and 2 to surrounding beams (simplified
case)
Beam 1
Figure 1 A warehouse frame system
The detailed information of the structural components is provided as follows:
Slabs 1 and 2 are made of in-situ cast reinforced concrete and have a thickness
of 150 mm (Figure 2). For simplicity, we assume that half the weight of each slab
is transferred to Beam 1 (as shown in Figure 2). In addition, a water tank full of
water with a weight of 1042 kg (1000 L of water plus weight of the tank) will be
installed in the middle of Beam 1 (Figure 2). All the beams are made of reinforced
concrete and have a standard size of 225 mm x 600 mm. Note that the density of
reinforced concrete is 2500 kg/m³.
Half of slab 1
Half of slab 2
(b) Transfer of self-weight of Slabs 1 and 2 to Beam 1
Figure 2 Load transfer from slabs to beams in the warehouse frame system
A
Beam 1
8 m
600 mm
5 m
125 mm
225 mm
Beam cross section
Column cross section
C
Column 1
D
Column 2
Figure 3 The middle frame
Transcribed Image Text:DESIGN DESCRIPTION To construct a warehouse, the frame system shown in Figure 1 has been adopted. As an engineer, your task is to analyse the mid frame, highlighted in RED. Column 3 Column 1 Beam 1 Columb 2 Slab 1 Beam 1 Slab 2 Beam 2 Beam 3 Column 2 5 m 5 m 5 m Column 3 Column 1 8 m (a) Transfer of self-weight of Slabs 1 and 2 to surrounding beams (simplified case) Beam 1 Figure 1 A warehouse frame system The detailed information of the structural components is provided as follows: Slabs 1 and 2 are made of in-situ cast reinforced concrete and have a thickness of 150 mm (Figure 2). For simplicity, we assume that half the weight of each slab is transferred to Beam 1 (as shown in Figure 2). In addition, a water tank full of water with a weight of 1042 kg (1000 L of water plus weight of the tank) will be installed in the middle of Beam 1 (Figure 2). All the beams are made of reinforced concrete and have a standard size of 225 mm x 600 mm. Note that the density of reinforced concrete is 2500 kg/m³. Half of slab 1 Half of slab 2 (b) Transfer of self-weight of Slabs 1 and 2 to Beam 1 Figure 2 Load transfer from slabs to beams in the warehouse frame system A Beam 1 8 m 600 mm 5 m 125 mm 225 mm Beam cross section Column cross section C Column 1 D Column 2 Figure 3 The middle frame
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