Handbook of Civil Engineering Calculations

DESIGN OF REINFORCEMENT IN A

RECTANGULAR BEAM OF GIVEN SIZE

A rectangular beam of 4000-lb/in
2
(27,580-kPa) concrete has a width of 14 in (355.6 mm)
and an effective depth of 23.5 in (596.9 mm). Determine the area of reinforcement if the
beam is to resist a bending moment of (a) 220 ft-kips (298.3 kN-m); (b) 200 ft-kips (271.2
kN'm).

Calculation Procedure:

1. Calculate the moment capacity of this member
   at balanced design
   Record the following values:/callow = 1800 lb/in
   2
   (12,411 kPa); n = 8. From Table I 9 jb =
   0.860; Kb = 324 lb/in
   2
   (2234.6 kPa); M^^bd
   2
   = 324(14)(23.5)
   2
   = 2,505,000 in-lb
   (283,014.9 N-m).


2. Determine which material will be stressed to capacity under
   the stipulated moment
   For part a, M= 220,000(12) = 2,640,000 in-lb (3,579,840 N-m) > Mb. This result signifies
   that the beam size is deficient with respect to balanced design, and the concrete will there-
   fore be stressed to capacity.


3. Apply the basic equations in proper sequence to obtain A 3
   By Eq. 24, *(3 - k) = 6M/(fcbf) = 6(2,640,000)/[1800(14)(23.5)
   2
   ] = 1.138; A:= 0.446. By
   Eq. 29, p = P/[2n(l - k)] = 0.446
   2
   /[ 16(0.554)] = 0.0224; As = pbd = 0.0224(14)(23.5) =
   7.37 in^2 (47.55 lcm^2 ).


4. Verify the result by evaluating the flexural capacity
   of the member
   For part b, compute As by the exact method and then describe the approximate method
   used in practice.


5. Determine which material will be stressed to capacity under
   the stipulated moment
   Here M= 200,000(12) = 2,400,000 in-lb (3,254,400 N-m) < Mb. This result signifies that
   the beam size is excessive with respect to balanced design, and the steel will therefore be
   stressed to capacity.


6. Apply the basic equations in proper sequence to obtain A 8
   By using Eq. 27, #(3 - K)/(I -k) = 6nMI(fJbf) = 6(8)(2,400,000)/[20,000(14)(23.5)^2 ] =
   0.7448; K = 0.411. By Eq. 22, j = 1 - 0.411/3 = 0.863. By Eq. 25, A 5 = Ml(fjd) =
   2,400,000/[20,000(0.863)(23.5)] = 5.92 in^2 (38. 196 cm^2 ).


7. Verify the result by evaluating the flexural capacity
   of this member
   The value of/ obtained in step 6 differs negligibly from the value jb = 0.860. Consequent-
   ly, in those instances where the beam size is only moderately excessive with respect to
   balanced design, the practice is to consider that7 =jb and to solve Eq. 25 directly on this
   basis. This practice is conservative, and it obviates the need for solving a cubic equation,
   thus saving time.