Principles of Reinforced/Prestressed Concrete Design
Refer to figure
Given: fc’ = 27.6 Mpa fy = 413.6 Mpa b1 = 125 mm b2 = 650 mm
h1 = 300 mm t = 125 mm S = 75 mm
Bottom bars: 4-32 mmØ, beam is having a simple span of 8 m and unit wt. of concrete, Wc = 2400 kg/m3 .
8. Calculate the depth of the compression block in mm.
9. Compute the ultimate moment capacity of the beam in kn.m
10. Determine the safe service uniform live load in addition to its own weight, in kn/m
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Principles Of Reinforced Prestressed Concrete Design Refer To Figure Given Fc 27 6 Mpa Fy 413 6 Mpa B1 125 M 1 (92.91 KiB) Viewed 36 times
Refer to figure 003 fy = 413.6 Mpa b1 = 125 mm = b2 = 650 mm Given: fc' 27.6 Mpa h1= = 300 mm t = 125 mm S = 75 mm Bottom bars: 4-32 mmØ, beam is having a simple span of 8 m and unit wt. of concrete, Wc = 2400 kg/m³. 8.0 Calculate the depth of the compression block in mm. 9.0 Compute the ultimate moment capacity of the beam in kn.m 10.0 Determine the safe service uniform live load in addition to its own weight, in kn/m. Assume that the t FIGURE 003 h1 h1 h2 h1 h
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