The office floor plan shown below has four panels and each panel sits on four ed

Question

The office floor plan shown below has four panels and each panel sits on four edge beams. S 5 m, and L 6 m. The dead load consists of the following corrugated steel deck with concrete fill 2.0 kN/m acoustic ceiling tiles 0.1 kN/m vinyl floor tiles 0.05 kN/m2 allowance for mechanical ducts -0.35 kN/m beam self-weight 3.5 kN/m The live load is 3.0 kN/m (a) Calculate the design loads for beams B1 and B3. (b) Calculate the design moment (M*)and the design shear (V*) for beams B1 and B3 for the ultimate limit state. B1 B3 BA

Explanation / Answer

total dead load = 2.0kn + 0.1kn + 0.05kn + 0.35kn + 3.5kn

total dead load = 6kn

live load = 3kn

stress on beam B1, = y q L2 / 8

= 3x6x6 / 8

= 108/8

= 13.5kn/m2

design load of beam B1 = 13.5Kn/m2

for beam B3 = y q L2 /8

3x6x5 / 8

= 90 / 8

=11.25kn/m2

design load of beam B3 = 11.25Kn/m2

b.design moment of beam B1 = wL2 / 8 (w = load , L = length)

= 6Kn x (6)2 / 8

= 6 x 36 / 8

= 216/8 = 27

design moment of beam B1 = 27Nm

design shear, V = w[ (L/2)-x ] (w= load , L = length , x = distance from point to reaction on beam)

= 6[ (6/2) - 5

= 6 [3- 5]

= 6(-2)

design shear of beam B1 = -12 Nm

similarly for beam B3

design moment M = wL2 / 8

= 6x(5)2 / 8

= 6x25 / 8

= 150 /8

design moment of beam B1 = 18.75Kn

design shear,V = w[ (L/2) -y ]

= 6[ ( 5/2)5]

= 6[2.5-5]

= 6x-2.5

design shear of beam B3 = -15Nm

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