A new rockfall test site in the MTA quarry in St. Leonard, Canton Valais in Switzerland, has been constructed to examine the processes during rockfall and to study the behavior of a new flexible rockfall protection system.
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The unique load case closer models the occurrence of rock falls
The
specially designed test site consists of a 20 m high acceleration ramp
with automated rock release mechanism. It enables vertical potential
energy to be guided to horizontal impact with a test barrier, while
additionally rotating the test block. The unique load case generated at
this test site closer models the occurrence of rock falls. The
apparatus are installed at the top of a 50 m long and 50° rock slope
and enable the release of both natural rock boulders and artificial
test bodies.
The flexible protection systems under testing are
known as rockfall attenuators or hybrid barriers. Their design is a
combination of standard drape nets and flexible rockfall barriers. In
this case, an impact zone constructed of a high tensile spiral rope net
intercepts upslope rockfall. Rock blocks are then guided through a tail
drape section and contained to the base of slope. They utilise boulder
impacts with the net and its interaction with the slope to attenuate
the velocity and trajectory of rockfall.
High speed video cameras are installed along the test slope
High speed video
cameras recording up to 250 fps are installed along the test slope,
they capture in detail the test boulder path from its release to its
final resting point. The video data enables a back analysis of the
trajectory and velocity of the rock boulder and a calculation of its
kinetic energy. The use of natural rock boulders during testing allows
the influence of different rock boulder form to be analysed. An
important application of the data generated during the experiments is a
calibration of rockfall simulation programs.
Significant
for the study of the Hybrid barrier systems are the initial impact
energy and the exit velocity. Through this an energy balance can be
calculated and the working attenuation affect of the test barriers be
evaluated. In addition to this, load cells sampling at a rate of 2'000
Hz are used to the measure acting cable forces in the test barriers.
Goals of the barrier testing are to identify their attenuating capacity
and optimise their design, developing criteria for their design and
installation.