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Notation
Ag = gross area of concrete section, in2
bf = effective flange width, in.
bw = web width or diameter of circular section, in.
c1 = dimension of rectangular or equivalent rectangular column, capital, or bracket measured in the direction of the span for which moments are being determined, in.
c2 = dimension of rectangular or equivalent rectangular column, capital, or bracket measured in the direction perpendicular to c1, in.
Ec = modulus of elasticity of concrete, psi
Es = modulus of elasticity of reinforcement, psi
fc'= specified compressive strength of concrete, psi
fy = specified yield strength for nonprestressed reinforcement, psi
h = overall thickness, height, or depth of member, in.
l = span length of beam or one-way slab; clear projection of cantilever, in.
ln = length of clear span measured face-to-face of supports, in.
Pu = factored axial force; to be taken as positive for compression and negative for tension, lb
sw = clear distance between adjacent webs, in.
ϕ = strength reduction factor
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Minimum beam depth
For nonprestressed beams, the limits of overall beam depth h are given in ACI Table 9.3.1.1.
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The expressions in ACI Table 9.3.1.1 shall be multiplied by (0.4 + fy /100,000) if reinforcement tield strength fy is different than 60,000 psi.
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Deflection limits
If nonprestressed beams do not satisfy ACI 9.3.1, immediate and time-dependent deflections are calculated according to ACI 24.2 and checked so as not to exceed the maximum values in ACI Table 24.2.2.
Member | Condition | Deflection to be considered | Deflection limitation | |
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Flat roofs | Not supporting or attached nonstructural elements likely to be damaged by large deflections Immediate deflection due to L | Immediate deflection due to maximum of Lr, S, and R | l/180 | |
Floors | l/360 | |||
Roof or Floors | Sıpporting or attached to nonstructural elements | Likely to be damaged by large deflections | That part of hte total deflection occurring after attachment of nonstructural elements, which is the sum of the time-dependent deflection due to all sustained loads and the immediate deflection due to any additional live load | l/480 |
Not likely to be damaged by large deflections | l/240 |
Reinforcement strain limit in beams
If Pu< 0.10fc’Ag for nonprestressed beams, strength reduction factor ϕ used for tension-controlled according to ACI Table 21.2.2.
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Beams of Earthquake Reistant Structures
Ordinary moment frames
All the design limits described above are valid for beams of ordinary moment frames.
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Beams should have minimum two continuous bars at top and bottom faces.
Area of continuous bottom bars should not be less than one-fourth of the maximum area of the bottom bars along the span. These bars should be anchored to develop fy in tension at the face of support.
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Intermediate moment frames
All the design limits described above are valid for beams of ordinary moment frames.
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Beams should have minimum two continuous bars at top and bottom faces.
Area of continuous bottom bars should not be less than one-fourth of the maximum area of the bottom bars along the span. These bars should be anchored to develop fy in tension at the face of support.
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The positive moment strength at the face of the joint should be greater than one-third of the negative moment strength provided at that face of the joint.
Along the length of the beam, both of the positive and the negative moment strength at any section should be greater than one-fifth the maximum moment strength provided at the face of either joint.
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Special moment frames
All the design limits described above are valid for beams of special moment frames. Beams of special moment frames shall frame into columns of special moment frames.
According to ACI 18.6.2.1, beams of special moment frames should satistfy the conditions given below;
Minimum clear span ln , should be 4d
Minimum width bw should be lesser of 0.3h and 10 in.
Projection of the beam width beyond the width of the supporting column on each side should be less than than the smallest value of c2 and 0.75c1.
According to ACI 18.6.3.2;
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