Saturday, November 17, 2012


The bearing capacity Eq. (12.6) developed by Terzaghi is for a strip footing under general shear failure. Eq. (12.6) has been modified for other types of foundations such as square, circular and rectangular by introducing shape factors. Meyerhof (1963) presented a general bearing capacity equation which takes into account the shape and the inclination of load. The general form of equation suggested by Meyerhof for bearing capacity is

Hansen (1970) extended the work of Meyerhof by including in Eq. (12.27) two additional factors to take care of base tilt and foundations on slopes. Vesic (1973, 1974) used the same form of equation suggested by Hansen. All three investigators use the equations proposed by Prandtl (1921) for computing the values of Nc and Nq wherein the foundation base is assumed as smooth with the angle a = 45° + 0/2 (Fig. 12.6). However, the equations used by them for computing the values of Nγ are different. The equations for Nc, Nq and Nγ are

Table 12.2 The values of Nc, Nq, and Meyerhof (M), Hansen (H) and Vesic (V) Nγ Factors

Table 12.3 Shape, depth and load inclination factors of Meyerhof, Hansen and

Table 12.2 gives the values of the bearing capacity factors. Equations for shape, depth and inclination factors are given in Table 12.3. The tilt of the base and the foundations on slopes are not considered here.
In Table 12.3 The following terms are defined with regard to the inclination factors
Qh = horizontal component of the inclined load
Qu = vertical component of the inclined load

The general bearing capacity Eq. (12.27) has not taken into account the effect of the water table position on the bearing capacity. Hence, Eq. (12.27) has to be modified according to the position of water level in the same way as explained in Section 12.7.

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