DHARMELEMENTS OF SOIL DYNAMICS AND MACHINE FOUNDATIONS 865
But fn =1
2 πCA
Mut.Substituting all known values,18 =1
21 125
π 1 927Cu×.
.
whence Cu, the coefficient of elastic uniform compression = 2.191 × 10^4 kN/m^3
Next, Weight of machine = 90 kN
Weight of block = 3 × 4 × 2 × 24 = 567 kN
Total Weight = 666 kNCorresponding Mass =666
981.kN sec^2 /m = 67.89 kN sec^2 /m
Base area, Ap = 12 m^2
If we denote Cu for the test block as Cut and that for the prototype block for the machineas Cup the relationship between these two is
C
CA
Au
ut
pp
t=∴ Cup = 2.191 × 10^4 ×1 125
10.
= 1.37 × 10^3 kN/m^3(Since Ap is to be limited to 10 m^2 )
Hence the natural frequency of the machine foundation=1
2735 10 12
67 893
π.
.××
= 5.74 Hz.Example 20.6: What will be the percentage variation in the value of the coefficient of elastic
uniform compression if the diameter of the plate is halved?
C
CA
AD
DD
Du
u2
11
21
21
1 2===
(/)= 2∴ CCuu 21 =^2
This means that the coefficient of elastic uniform compression increases by cent per cent
if the diameter of the plate is halved.
Example 20.7: The resonant frequency of a block foundation, excited by an oscillator is ob-
served as 20 Hz. The amplitude of vibration at resonance is 1 mm. The magnitude of the
dynamic force at 20 Hz is 5 kN. If the total weight of the block and oscillator is 20 kN, calculate
the damping factor associated with it.
fn =1
2 πk
M20 =1
220981 πk
(/.)
whence k = 32, 194 kN/m