Vibrated cast-in-place pile description – Liebherr LRB 125 XL User Manual

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Vibrated cast-in-place pile
Description

Vibrated cast-in-place piles are installed in the shielding

of an outer casing. The casing, which is closed at its

bottom end with a base plate, is vibrated down to

the required depth using a high frequency vibrator.

The base plate is disposable and can be fitted with a

sealing to prevent groundwater ingress. Once the final

depth has been reached, a reinforcement cage can

be inserted into the casing. Subsequently concrete

is poured in from the top and the casing is extracted

with the help of the high frequency vibrator. Due

to the vibration, the fresh concrete is compacted.

Furthermore, the concrete interlocks with the

surrounding soil and the finished pile offers high skin

friction and thus high load-bearing capacity.

Applications

Depending on the soil conditions it may be useful to

install a geotextile hose into which the reinforcement

is inserted. On the one hand, this prevents the liquid

concrete from penetrating soft soil types. On the other

hand, pile necking due to caving in of soil is avoided.

When installing vibrated cast-in-place piles – as when

vibrating other pile types – it is possible to apply jetting

as an installation aid. In this case jet pipes are welded

onto the casing to be vibrated. During the vibration

process water, air or a combination of both are pumped

through these pipes in order to reduce the skin friction

during installation of the casing.

The vibrated cast-in-place pile process is used for the

installation of foundation piles, sealing piles and pile

walls (tangential and intermittent).

A special variation is the production of sand piles and

gravel piles.

Soil types

The vibrated cast-in-place pile process is suitable for

non-cohesive soils (sand, sand/gravel mixtures) – even

densely layered. In cohesive soils (silt, clay) it can be

applied up to stiff consistency.

Advantages

• High performance as the casing is rapidly inserted in one

piece.

• Since the base plate is sealed the concrete can be poured

into the dry casing from the top.

• High load-bearing capacities of the finished piles.

• The dimensions of the piles can be controlled through the

use of geotextile hoses.

• As the soil is displaced at the pile base the load-bearing

capacity of the surrounding soil is increased.

• Thanks to the use of high frequency vibrators with variable

static moment no vibrations are emitted that could cause

damage to adjacent buildings.

• Low noise level.