2. Data structure content EVOL_NOLI#

Data structure EVOL_NOLI contains the list of fields archived during the calculation (according to the various keyword options ARCHIVAGE). By default, it contains, for each moment, the list of the following fields:

  • DEPL: field (at the nodes) of movements;

  • SIEF_ELGA: field (at Gauss points) of the constraints;

  • VARI_ELGA: field (at Gauss points) of the internal variables;

  • COMPORTEMENT: behavior map. This map contains behavioral information non-linear used, it is not readable when printed in MED format.

Depending on some calculation options, other fields will be present:

  • CONT_NOEU: field (at the nodes) for contact and friction information (see [U4.44.11] for more details on the content of this field);

  • CONT_ELEM: field (to the elements) for the contact friction information for the method LAC (see [U4.44.11] for more details on the content of this field);

  • INDC_ELEM: field (at the Gauss sub-points) of the contact statuses for the case XFEM with contact;

  • COHE_ELEM: field (at Gauss sub-points) of the cohesion parameter for the case XFEM with RELATION =” CZM “;

  • SECO_ELEM: field (at Gauss sub-points) of the friction statuses for the case XFEM with contact and friction;

  • STRX_ELGA: field (at Gauss points) relating to structural elements;

  • HHO_CELL and HHO_FACE: fields specific to the HHO method (see r3.06.14).

In addition to these fields, the data structure also contains parameters. At each instant, we store at least:

Name

Origin Keyword

Description

Type

INST

Calculation time value

R

EXCIT

EXCIT

Cargo Information

K24

MODELE

MODELE

Model

K8

CARAELEM

CARA_ELEM

Basic characteristics

K8

CHAMPMAT

CHAM_MATER

Material field

K8

PARM_THETA

PARM_THETA

Behavioral law integration parameter

R

ITER_GLOB

Total number of Newton iterations

I

CHAR_MINI

Minimum load reached during the time step

R

ETA_PILOTAGE

Control Parameter

R

When looking for instability modes (with STAT_NON_LINE or DYNA_NON_LINE) or modes vibratory (with DYNA_NON_LINE only), we store the corresponding field of movement and the critical load value or frequency.

Name

Origin Keyword

Description

Type

CHAR_CRIT

CRIT_STABavec

TYPE = “FLAMBEMENT”

Critical buckling mode loading

R

MODE_FLAMB

CRIT_STABavec

TYPE = “FLAMBEMENT”

Buckle mode

Field type DEPL

CHAR_STAB

CRIT_STABavec

TYPE = “STABILITE”

Instability value

R

MODE_STAB

CRIT_STABavec

TYPE = “STABILITE”

Instability mode

Field type DEPL

FREQ

MODE_VIBR

Vibration mode frequency (just available in DYNA_NON_LINE)

R

DEPL_VIBR

MODE_VIBR

Vibration mode (just available in DYNA_NON_LINE)

Field type DEPL

Name

Origin Keyword

Description

Type

CHAR_CRIT

CRIT_STAB with

TYPE = “FLAMBEMENT”

Critical buckling mode loading

R

MODE_FLAMB

CRIT_STAB with

TYPE = “FLAMBEMENT”

Buckle mode

Field type DEPL

CHAR_STAB

CRIT_STAB with

TYPE = “STABILITE”

Instability value

R

MODE_STAB

CRIT_STAB with

TYPE = “STABILITE”

Instability mode

Field type DEPL

FREQ

MODE_VIBR

Vibration mode frequency (just available in DYNA_NON_LINE)

R

DEPL_VIBR

MODE_VIBR

Vibration mode (just available in DYNA_NON_LINE)

Field type DEPL