This program carries out the
analysis of soil or rock slope
stability both in static and seismic
states utilizing the limit
equilibrium methods of Fellenius,
Bishop, Janbu, Bell, Sarma, Spencer,
Morgenstern & Price and Discrete
elements method (DEM) for circular
and non circular surfaces by which
it is possible to ascertain
slippages in the slope, examine a
gradual failure, and employ various
models of force-deformation
relationship. Reinforcements with
piles, gravity and/or reinforced
concrete bracing walls, nettings,
geofabrics, anchors, and terracing
may be specified. Distributed and
point loads may be defined.
Automatic computation of Safety
Factor for surfaces that: are
tangential to a straight line (automatically
varying the inclination), that pass
through one, two, or three given
points. Analysis of submerged slopes.
DATA INPUT
Graphic input with mouse (or other
pointing device);
Tabular numeric input;
Input of EXCEL/WORD table data;
Input of DXF files;
Input of topographic profile
generated by TRISPACE;
Import of rasterized images;
Input of ASCII files;
Input from Dynamic Probing;
GRAPHIC FUNCTIONS
Dynamic Zoom; Window Zoom; Zoom All;
Zoom %; Real time Move; Grid, Snap,
Mirror, Scale, Translate;
REINFORCEMENTS AND
INTERVENTION
Retaining walls;
Single Piles
Sheet piles or Bulkheads;
Mesh Netting; Anchors;
Step Terracing;
Geosynthetics;
Nailed reinforcement implementation
using
Soil
Nailing technique.
EMBANKMENT LOAD TYPES
Point loads, Longitudinal
loads
CALCULATION METHODS
According to: FELLENIUS, BISHOP,
JANBU, BELL, SARMA, SPENCER;
MORGENSTERN & PRICE, DISCRETE
ELEMENTS, Back Analysis.
COMPUTATION OPTIONS
Recalculate function to
evaluate the safety factor of a
specific surface with center X0,Y0
and radius R;
Identification of the critical slide
surface though automatic calculation;
Computation of safety factor for
surfaces which pass through two
given points and are tangential to a
straight line whose gradient varies
automatically;
Automatic computation of safety
factor for surfaces that are
tangential to a straight line vector;
Computation of safety factor for
surfaces which pass through either
three, or one given point;
Differentiation between flexible and
rigid retaining structures;
Stability analysis of submerged
slopes (e.g. hillside lakes);
Analysis of irregular surfaces;
Presence of seismicity and aquifers;
Stratified terrains and relative
pore pressures.
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