الخلاصة:
ABSTRACT
The behavior of Gypseous soil under different frequencies encountered
during a dynamic loading events like machine foundation, impact,
explosions, seismic activity is very difficult to analyze, thus an attempt has
been made to study the behavior of this type of soils subjected to dynamic
loading.
In this research a parametric study is carried out to investigate the effect
of applying a vibrated loading during leaching process. The work is carried
out by using an experimental model, designed and manufactured for this
purpose. Two representative samples of gypseous soil which contain
different gypsum contents with (65%, 46%) are brought from a local source
in Salah-Aldeen governorate, in north of Iraq.
The main objective of this research is to investigate the change in
permeability of the samples with time (leaching), associated strains,
dissolved salts and investigate the relationship between void ratio and the
coefficient of permeability under static loading. Then after investigate these
parameters under effect of wide range of vibrated loading to compare the
results obtained with static state. Also the basic characteristics of vibrated
loading have been measured during tests. They include, displacement
amplitude, acceleration of motion, magnitude of dynamic force applied, and
damping ratio.
The results show that some frequencies of loading have a slight effect in
permeability by increasing with percentage not exceeding 10 % from
original value. While there is a set of frequencies produce a significant
II
increasing in permeability coefficient by magnitude exceeds nearly (30%)
for the first sample and (45 %) for the second. As a result, the rate of
dissolution is increased during process due to increase in volume of water
collected. But the high frequencies have a different effect on permeability,
where it has led to a significantly decreasing in its value. The change in this
coefficient depends mainly on basic characteristics of vibration, which are,
displacement amplitude, acceleration, and amount of dynamic force applied.
Also the test results show that the vibrated loading leads to dangerous
collapse, which increases strongly with increasing of frequency of loading.
The collapse resulting from this loading reaches to 200 %, 210% from the
soaking collapse for the two samples (S1, S2) respectively.
The damping ratio calculation is performed according to bandwidth
method for the system. The results show that the damping ratio for the first
sample is greater than second sample. Also tests are carried to evaluate the
wall reflective characteristics of the test container and to assess the isolating
property of the rubber isolator which is used as absorbing layer. The results
indicate that there are a significant effect on the settlement occur due to wall
reflectance when the test is conducted without using absorbing layer in
model test. The reduction factor in value of settlement due to using the
absorbing layer is ranged between (15 - 28) % for frequencies of vibrated
loading between (30 - 100) Hertz.
Finally from the results, the relation between coefficient of permeability
and void ratio is plotted with complex relation, the initially part of curve
refers to increasing the permeability with decreasing of calculated void ratio,
but the last part shows that the decreasing in void ratio led to decreasing in
permeability of the soil samples.