Error Message Database

This section is comprised of error messages in ascending numerical order.

#1 through #299

Error 119

ERROR ID :    119
** ERROR IN INTERFACE DEFINITION
DESCRIPTION :  
   -- INTERFACE ID: 3
   -- INTERFACE TITLE: contact
   LAGRANGIAN SURFACE IS EMPTY
Description:

In 2D analysis (N2D3D=1 or 2 in /ANALY), all mesh must be in YZ plane, and must be in Y positive axis and Z positive axis. If mesh is in Y negative axis or Z negative axis, surface is not found for contact, and this error message will be printed.

Suggestions for Resolution:

In pre-processor (HyperMesh or HyperWorks) move all mesh in Y positive axis and Z positive axis.

Error 189

MESSAGE ID :           189
** ERROR : BEGIN IS NOT A VALID KEYWORD
MESSAGE ID :           189
** ERROR : MAT IS NOT A VALID KEYWORD
Description:

This message usually occurs when the single file input format is used, and no Engine keywords are defined.

Head indicate “#RADIOSS STARTER” used for Starter file and “# RADIOSS” used for single file input (Starter and Engine in one file). Single file input also need end Engine part with “/END/ENGINE”.


Figure 1.
If head indicates “# RADIOSS”, but no Engine is defined, then error message ID 189 occurs.


Figure 2.
Suggestion for Resolution:

Either use head “#RADIOSS STARTER” or add Engine keywords.

Error 197

ERROR ID :           197
** ERROR IN INPUT DATA
DESCRIPTION :
-- PROPERTY ID : 521003304
   -- PROPERTY TITLE : New PROP 521003304
   REFERENCE DIRECTION IS ALMOST NORMAL TO SHELL ID=662193988
Description:

The Starter will print this message when the direction defined in the property (reference vector / skew) is almost normal to a shell element.

The solver provides the property ID (in this example, 521003304) and the shell element ID (in this example, 662193988) for which the reference direction is almost normal to the shell element.

The solver projects the vector V (or the Direction X of the skew onto the shell element) along the normal of the shell element (below left figure). If the vector V is normal to the shell element, then the projection of the vector onto the shell element fails (the project of vector V project on shell is one point) and the solver is not able to identify the direction 1 of orthotropy (below right figure) and this error message appear.


Figure 3.
Suggestion for Resolution:
The direction of the vector in the property reported by the Starter needs to be modified.
Note: Changing the vector direction, changes the direction of orthotropy.

If the material is not really orthotropic (E11=E22 and G12=G23=G31=E11/(2*(1+nu12)), changing the vector will not change the results and an arbitrary vector can be given (VX=VY=VZ=1).

If the material is orthotropic, you need to identify what is the direction of orthotropy and input this direction in the property. If the part has a complex geometry, you may need to split the part in different section and input deck vector.


Figure 4.

Error 223

ERROR ID: 223
** ERROR IN BEAM DEFINITION
 
DESCRIPTION :
   IN BEAM ID=1, N1 and N3 HAVE SAME LOCATION
   
SOLUTION:
   CHANGE N1 OR N3 COORDINATES
Description:
Beam elements need an orientation node (N3) to determine the initial position of the local frame. The coordinates of this node (N3) needs to be different than N1 and N2. It also cannot be on the axis defined by N1N2.


Figure 5.
Suggestion for Resolution:
This issue can be corrected manually:
  • If the beam cross-section is circular or square (Iyy=Izz), then the same N3 can be assigned to all the beam elements. The main requirement is to pick a node that is valid for all the selected beams: N3 should not lie on the axis of any of the selected beams.
  • If Iyy≠Izz, same the node N3 can still be assigned to multiple beam elements if their local X-axis is similar (defined by N1-N2). If the beam local X-axis is not similar, then pick different N3 for different beam: N3 should not lie on the axis of the beam.

#300 through #699

Error 480

ERROR ID :           480
** ERROR IN MATERIAL LAW
DESCRIPTION :
-- MATERIAL ID : 521002880
-- MATERIAL TITLE : Default MAT24 MAT_PIECEWISE_LINEAR_PLASTICITY.2
EPS_T MUST BE STRICTLY LESS THAN EPS_M
Description:

In material LAW27 and LAW36, when the failure in tension is defined, there are certain rules that should be followed. In this example the solver is reporting that for material 521002880, ε t > ε m MathType@MTEF@5@5@+= feaagKart1ev2aqatCvAUfeBSjuyZL2yd9gzLbvyNv2CaerbuLwBLn hiov2DGi1BTfMBaeXatLxBI9gBaerbd9wDYLwzYbItLDharqqtubsr 4rNCHbGeaGqiVu0Je9sqqrpepC0xbbL8F4rqGqFfpeea0xe9vq=Jb9 vqpeea0xd9q8qiYRWxGi6xij=hbba9q8aq0=yq=He9q8qiLsFr0=vr 0=vr0db8meaabaqaciGacaGaaeqabaWaaeaaeaaakeaacqaH1oqzda WgaaWcbaGaamiDaaqabaGccqGH+aGpcqaH1oqzdaWgaaWcbaGaamyB aaqabaaaaa@3E0B@ which is not allowed.

Suggestion for Resolution:

LAW36 Example:

Eps_t < Eps_m < Eps_f


Figure 6.

LAW27 Example:

EPS_t1 < EPS_m1 < EPS_f1

EPS_t2 < EPS_m2 < EPS_f2


Figure 7.

Error 592

ERROR ID :           592
** ERROR IN STARTER INPUT DECK FORMAT
DESCRIPTION :
INPUT VERSION=0
LINE : /VERS/2017
SOLUTION :
/BEGIN CARD IS COMPULSORY FOR STARTER INPUT VERSION >= 50
Description:

The solver is expecting a /BEGIN card, but instead found a different keyword. Example: /VERS/2017

The most common reason for this message to occur are:
  • The header indicates separate Starter and Engine files, but the Engine file is present underneath the header.
  • /BEGIN or /END is missing.

Error 611

MESSAGE ID :           611
** ERROR IN INITIAL PENETRATION IN INTERFACE
DESCRIPTION :           189
-- INTERFACE ID : 11
-- INTERFACE TITLE : Global interface Gap 0.49 Shells Only
INACTI = 6
IMPOSSIBLE TO CHANGE NODE COORDINATES OF SECONDARY NODE : 823868424
** INITIAL PENETRATION = 0.4900000e+00 IMPOSSIBLE TO CALCULATE NEW COORDINATES OF SECONDARY NODE********
Description:
The solver will print this message when it cannot compute the new possible coordinates of a node which is initially penetrating. The solver will provide the following information:
  • Node ID for which a new position could not be computed (in this example: 823868424)
  • Interface ID (in this example: 11)
Suggestion for Resolution:

In HyperCrash or HyperMesh, check the initial penetration for the interface ID for which the error occurs. Sort the initial penetration by minimum residual distance (Res. Dist. Column).

In most cases, the nodes for which the Starter will not be able to compute a new position will be nodes where the residual distance is equal to 0. This means that the nodes are initially on the main segment.

Select these nodes in the list and highlight them in the display ( in HyperMesh).


Figure 8.
There are three common modeling errors that can lead to this type of problem.
  1. Springs that represent welds or bolts are included in the global contact. They should be removed.


    Figure 9.
  2. Mesh issue:
    In an area where there are some cracks in the mesh, the nodes should be equivalenced (with HyperMesh).


    Figure 10.
    There is a skin on top of the solid mesh and the nodes of the skin/solid are not equivalenced. The nodes should be equivalenced (with HyperMesh).


    Figure 11.
  3. Solid to solid contact with 0 gap. This is not supported with interface TYPE7, TYPE11 or TYPE19. Either move the nodes to create a gap (0.1mm) or use interface TYPE24.


    Figure 12.

#700 through #1199

Error 953

ERROR ID :           953
** ERROR WHILE READING PARAMETERS
DESCRIPTION : 
UNEXPECTED END OF FILE
ERROR ID :           968
** INPUT ERROR
DESCRIPTION : 
ERROR WHILE READING STARTER INPUT FILE
Description:

This error occurs typically when parameters are present in the input and /END is missing at the end of the file.

In most cases, this occurs when the job was submitted before it finished copying into the scratch directory.

Suggestion for Resolution:

Add /END at the end of the input file or finish copying all input files.

Error 958

ERROR ID :           958
** ERROR DURING PARAMETERS EVALUATION
ERROR ID :           952
** ERROR IN STARTER INPUT DECK FORMAT
DESCRIPTION : 
INPUT VERSION=0
LINE : /PARAMETER/GLOBAL/INTEGER/6620015
Description:

This error occurs when the solver cannot evaluate the value of a parameter. This usually happens when an expression is not complete (check the value of the expression in HyperCrash) or there are some parameters referenced in the expression and they are not defined in the model.

Suggestion for Resolution:
The parameter “Time1” is equal to “ActTTF” + 20. The parameter “ActTTF” is not defined, so the solver cannot evaluate the value of “Time1”.


Figure 13. Example

Error 1078

ERROR ID :   1078
** ERROR: TIED INTERFACE
DESCRIPTION :  
   -- INTERFACE ID: 1
   -- INTERFACE TITLE: new Contact
   1 SECONDARY NODE(S) ARE DEACTIVATED FROM INTERFACE
     SECONDARY NODE:  82              NO MAIN SEGMENT FOUND WITHIN  1.0000000000000E-02
Description:

The solver will print this message when a node is included in an interface TYPE2 and no main segment is found within the search distance for this node and flag “Ignore” is set to 1000.

The solver will provide the interface ID (in this example 1) and the node ID (in this example 82) for which the solver did not find a main segment within the search distance (1.0e-2 in this example).

The Model Checker of HyperCrash detects this type of error (Secondary nodes no proj.).


Figure 14.
Suggestion for Resolution:
There are several ways to resolve this issue:
  • Use Ignore = 1, if those nodes do not need to be tied or remove these nodes from the interface TYPE2.
  • Translate the nodes that do not find a projection so that they fall within the search distance.
  • Increase the search distance slightly (Dsearch).


Figure 15.

Error 1104

ERROR ID :           1104
** ERROR WHILE BUILDING SURFACE FROM SOLID PARTS
DESCRIPTION : 
-- SURFACE ID : 830005865
-- SURFACE TITLE : New SURF 830005865
UNAVALABLE OPTION /SURF/PART/Surf_ID FOR CREATING SURFACE
SOLUTION : 
FOR A PART OF SOLIDS
USE /SURF/PART/EXT/Surf_ID or /SURF/PART/ALL/Surf_ID
Description:

The solver will print this message when a PART with solid elements is included in the a /SURF/PART. This keyword allows to build surfaces only from 2D elements and not 3D.

Suggestion for Resolution:
  1. Run the check named Volumic Parts in Surf in the HyperCrash Model Checker.
  2. Select either Switch to Surf Ext or Switch to Surf All to automatically switch the keyword to /SURF/PART/EXT or /SURF/PART/ALL.


    Figure 16.

Error 1130

ERROR ID :           1130
** ERROR IN USER INTERFACE
DESCRIPTION : 
OPTION : /MAT/USER1
USER INTERFACE OPTION USED, BUT NO USER INTERFACE ROUTINE IS FOUND
Description:

The Starter will print this message when it reads a user material (LAW29) and the user library defining the behavior and format of this material is not defined.

Suggestion for Resolution:

Replace user material with any other compatible and supported Radioss material keyword.