Page 206 - Handbook of Civil Engineering Calculations, Second Edition

P. 206

HANGERS, CONNECTORS, AND WIND-STRESS ANALYSIS 1.189

column is directly proportional to the distance from the column to the centroid of the
combined column area. As in the portal method, the assumption is made that the point of
contraflexure in each member lies at its center. Refer to the previous calculation proce-
dure for the sign convention.
Computing the shear and moment on the bent at midheight, we have the following. Up-
per row: H 3900 lb (17.3 kN); M 3900(7.5) 29,250 ft·lb (39,663.0 N·m). Center
row: H 3900 + 7500 11,400 lb (50.7 kN); M 3900(22.5) + 7500(7.5) 144,000
ft·lb (195.3 kN·m). Lower row: H 11,400 + 8250 19,650 lb (87.5 kN); M 3900(39)
+ 7500(24) + 8250(9) 406,400 ft·lb (551.1 kN·m), or M 144,000 + 11,400(16.5) +
8250(9) 406,400 ft·lb (551.1 kN·m), as before.

2. Locate the centroidal axis of the combined column area,
and compute the moment of inertia of the area with respect
to this axis
Take the area of one column as a unit. Then x (30 + 54 + 75)/4 39.75 ft (12.12 m); I
2
2
2
2
2
39.75 + 9.75 + 14.25 + 35.25 3121 sq.ft. (289.95 m ).
3. Compute the axial force in each column
Use the equation f My/I. The y/I values are
. A . B .C .D
y 39.75 9.75 –14.25 –35.25
y/I 0.01274 0.00312 –0.00457 –0.01129

Then column A-2-3, P 29,250(0.01274) 373 kips (1659 kN); column B-0-1, P
406,400(0.00312) 1268 kips (5640 kN).
4. Compute the shear in each beam by analyzing each joint
as a free body
Thus, beam A-3-B, V 373 lb (1659 N); beam B-3-C, V 373 + 91 464 lb (2.1 kN);
beam C-3-D, V 464 – 134 330 lb (1468 N); beam A-2-B, V 1835 – 373 1462 lb
(6.5 kN); beam B-2-C, V 1462 + 449 – 91 1820 lb (8.1 kN).
5. Compute the end moments of each beam
Apply Eq. b of the previous calculation procedure. Or for beam A-3-B, M /2(373)(30)
1
5595 ft·lb (7586.8 N·m).
6. Compute the end moments of each column
Do this by equating the algebraic sum of the end moments at each joint to zero.
7. Compute the shear in each column
Apply Eq. c of the previous calculation procedure. The sum of the shears in each hori-
zontal row of columns should equal the wind load above that plane. For instance, for
the center row, H –(2178 + 4348 + 3522 + 1352) –11,400 lb (–50.7 kN), which is
correct.
8. Compute the axial force in each beam by analyzing each joint
as a free body
Thus, beam A-3-B, P –3900 + 746 –3154 lb (–14.0 kN); beam B-3-C, P –3154
+ 1488 –1666 lb (–7.4 kN).

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