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porewaterdruk

Porewaterdruk, in geotechnical engineering commonly written as pore water pressure, is the pressure exerted by groundwater within the pore spaces of a soil or rock. In saturated soils it is denoted by u and interacts with the total stress to determine the soil’s effective stress.

The effective stress principle, formulated by Terzaghi, relates total stress, pore pressure, and shear strength: sigma'

Pore water pressure can arise from several sources. In static conditions, it follows hydrostatic flow and increases

Measurement and assessment are typically done with piezometers or vibrating-wire transducers installed in the ground. Standpipe

Significance and management: porewaterdruk influences bearing capacity, settlement, slope stability, and liquefaction resistance. Engineering measures to

=
sigma
-
u.
This
means
that
higher
pore
water
pressures
reduce
the
effective
stress
and
thus
the
soil’s
shear
strength.
Conversely,
lowering
pore
pressure
through
drainage
or
unloading
increases
effective
stress
and
strength.
with
depth.
It
can
be
elevated
by
rapid
loading,
infiltration,
seepage,
or
inadequate
drainage,
and
may
decrease
as
soils
consolidate
or
are
drained.
In
unsaturated
soils,
suction
can
create
negative
pore
pressures,
contributing
to
apparent
stiffness.
piezometers
or
more
advanced
instruments
can
monitor
pore
pressure
changes
during
loading,
drainage,
or
surface
water
variations.
Pore
pressure
is
often
expressed
as
a
pressure
ratio
ru
=
u
/
sigma'v,
used
in
liquefaction
and
slope-stability
analyses.
control
pore
pressures
include
drainage
and
dewatering,
preloading,
installation
of
vertical
drains,
and
proper
design
of
drainage
paths.
Understanding
porewater
pressure
is
essential
for
safe
foundation
design,
earthworks,
and
groundwater
management.