Iteration check list with nonlinear elastic soil and nonlinear geometric behaviour based on nodes list (Output Table)
Data description/Result options:
NODE:
Number of node (n)
LER:
Lateral soil reaction error indicator at node (n)
FER:
Axial soil friction error indicator at node (n)
TER:
Torsional soil friction error indicator at node (n)
Meaning of error indicator for LER, FER and TER: 

(blank) 
Deviation within specified VARAR 
Deviation more than 1 times specified VARAR 

Deviation more than 2 times specified VARAR 

Deviation more than 3 times specified VARAR 

Deviation more than 4 times specified VARAR 

Deviation more than 5 times specified VARAR 

NONLIN 
Soil parameter in nonlinear area (at boundary nodes only) 
Near Zero 
Indicates the (possible endless) iteration process is stopped because of very small reactions 
LVAR:
Lateral soil reaction deviation from specified soil reaction/ displacement curve, in percent of specified soil reaction value
(Positive value means calculated soil reaction higher than required
Negative value means calculated soil reaction lower than required)
LDEV:
Deviation angle between direction of lateral soil reaction and pipe displacement after the last calculated soil iteration
(The angle is always between 0 and 180 degrees. The smaller the angle the more accurate the iteration results.)
FVAR:
Axial soil friction deviation from specified soil reaction/ displacement curve, in percent of specified soil friction value
(see info LVAR above)
TVAR:
Torsional soil friction deviation from specified soil reaction/ displacement curve, in percent of specified torsional frict. value
(see info LVAR above)
FXDISEQ:
Disequilibrium force in Xdirection at node (n)
FYDISEQ:
Disequilibrium force in Ydirection at node (n)
FZDISEQ:
Disequilibrium force in Zdirection at node (n)
MXDISEQ:
Disequilibrium moment in Xdirection at node (n)
MYDISEQ:
Disequilibrium moment in Ydirection at node (n)
MZDISEQ:
Disequilibrium moment in Zdirection at node (n)
The disequilibrium forces and moments are provided only in case of geometrically nonlinear calculations.
The number of rows is the number of nodes.
H500521, last changed: 20070730
See also: