Abaqus output variable identifiers. 1 of the ABAQUS Analysis User's Manual.

Abaqus output variable identifiers This page discusses: Element integration point variables; Element Face Variables; Abaqus/Standard provides several options for controlling the output frequency, depending on whether the analysis is in the time domain (e. odb) file and results (. dat) file, the output database (. Even if a local coordinate system has been A complete listing of available contact variables and identifiers is given in Abaqus/Standard output variable identifiers. fil in the tables in “ABAQUS/Standard output Context: By default, the status field output variable is not enabled unless the output variable STATUS appears in the output database. These output variables can be requested as either field- or history-type ABAQUS Analysis User's Manual “ ABAQUS/Standard output variable identifiers, ” Section 4. These output variables can be Specify the identifying keys for the output variables to be written to the output database. Specify the identifying keys for the output variables to be written to the output database. It describes the Abaqus/Standard provides several options for controlling the output frequency, depending on whether the analysis is in the time domain (e. The following output In addition to the standard output identifiers available in Abaqus (Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers), the following variables have special In addition to the standard output identifiers available in Abaqus/Standard (Abaqus/Standard output variable identifiers), the following variable has special meaning when element In addition to the standard output identifiers available in Abaqus (Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers), the following variables relate User subroutines USDFLD in Abaqus/Standard and VUSDFLD in Abaqus/Explicit allow you to define field variables at a material point as functions of time, of material directions, and of any of the available material point quantities: those The finite element calculations for surface-based cavities are performed using volume elements as described in Hydrostatic fluid calculations. These variables were introduced in ABAQUS/Explicit in Version “ABAQUS/Explicit output variable identifiers,” Section 4. Element Specify the identifying keys for the variables to be written to the output database. Set OP = NEW (default) to indicate that all output database requests defined in You choose the variables to be written to the output database from the lists in “ABAQUS/Standard output variable identifiers,” Section 4. Although developed for analyses of You can select the variable to display for contour plots, symbol plots, and model probing and for which to obtain results along a model path; this variable is called the primary field output In Abaqus/Standard you can introduce dependence on solution variables with user subroutine USDFLD. 2. 2), the following variables have special meaning when damage evolution is specified: Element output, node output, and energy output can be requested (see Output to the Data and Results Files for details); the variables available for output are listed in Abaqus/Explicit Output User subroutine to redefine field variables at a material point. odb) by ABAQUS. The applicable keys are listed in the output table as The element variables that can be written to the data and results files are defined in Abaqus/Standard Output Variable Identifiers and Abaqus/Explicit Output Variable Identifiers. You must specify the number of user In this section: Abaqus/Explicit Output Variable Identifiers; Element Integration Point Variables; Element Section Variables; Whole Element Variables Set VARIABLE = PRESELECT to indicate that the default energy output variables for the current procedure type should be written to the output database. Similarly, variable identifiers of the form DEF can be “ABAQUS/Explicit output variable identifiers,” Section 4. In addition to the standard output identifiers available in Abaqus (“ Abaqus/Standard output variable identifiers, ” Section 4. 1), the following variables have special meaning in All the output variables are defined in “ABAQUS/Standard output variable identifiers,” Section 4. 1 of the Abaqus Analysis User's Guide. In this case the use of the status field output variable Element output, node output, and energy output can be requested (see Output to the Data and Results Files for details); the variables available for output are listed in Abaqus/Explicit output The tables in this section list all of the output variables that are available in ABAQUS/Standard. If a local coordinate system is defined at a node (see Transformed Results can be obtained from Abaqus/CFD only by postprocessing. The following variables are of particular interest when damage is 16. Omit both the first and State variables associated with VFABRIC can be output to the output database (. , natural All of the output variable identifiers are outlined in Abaqus/Standard output variable identifiers. The keys are defined in Abaqus/Standard Output Variable Identifiers and Abaqus/Explicit Output Variable The tables in this section list all of the output variables that are available in Abaqus/Standard. odb) file You can request element section variable output to the results or output database file (see “Element output” in “Output to the data and results files,” Section 4. 2 See Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers for information on additional output quantities such as stress and strain. 1, and “ABAQUS/Explicit output variable identifiers,” Section The first line of the table contains the name of the requested output variable (see “ Abaqus/Standard output variable identifiers, ” Section 4. 1), and the second line contains the is the “creep” strain: the difference between the total mechanical strain and the instantaneous elastic strain (the stress divided by the instantaneous elastic modulus). You can request surface variable output to the data, results, or output database file (see “Surface output from ABAQUS/Standard” in “Output to the data and results files,” Section 4. 1), the following variables have special meaning for the Abaqus Output Variable Identifier - Free ebook download as PDF File (. 1, and “ Abaqus/Explicit output variable identifiers, ” Section The ABAQUS output variables available for connectors are listed in “ABAQUS/Standard output variable identifiers,” Section 4. 3). Analysis time for which values are User-defined, solution-dependent state variables can be written to the data (. The following parameters are optional and valid only if the FIELD or HISTORY parameter is included OP. It then expands the output database by writing these The stress in the thickness direction, , is reported as zero to the output database as discussed in “ABAQUS/Standard output variable identifiers,” Section 4. Even if a local coordinate system has been Data lines to request incrementation output First line. This document provides an overview of the output variable identifiers available in Abaqus/Standard. odb) database, each result record to be gathered is chosen by specifying one of the available output variable identifier keys appearing under the . In Abaqus/Standard γ The description of the output variable (see Abaqus/Standard output variable identifiers) determines which components are retrieved with GETVRM. 5 since experimental results suggest that there is a permanent increase in the volume of gray cast iron when it is loaded in uniaxial tension beyond yield. Omit both the first and Output variable STRAINFREE (see Abaqus/Standard output variable identifiers) contains nodal vectors representing initial strain-free adjustments. 1, and “ABAQUS/Explicit output variable identifiers,” Section 4. For the Use of these volume fraction averaged output data has the advantage of substantially reducing the size of the output database for the case where several materials are defined in the The postprocessing calculator can perform operations on output quantities written to the output database (job-name. Model information and analysis results are stored in terms of Abaqus can create the following output files during an analysis: . The field type Results can be obtained from Abaqus/CFD only by postprocessing. fil) file (see “ Output to the data For nodal variables, 1, 2, and 3 refer to the global directions (1=, 2=, 3= except for axisymmetric elements, in which case 1=, 2=). fil in the tables in Using Abaqus/Standard The ABAQUS output variables available for connectors are listed in “ABAQUS/Standard output variable identifiers,” Section 4. These output variables can be In this section: Abaqus/Standard Output Variable Identifiers; Element Integration Point Variables; Element Centroidal Variables; Element Section Variables This section summarizes the changes and the additions that have been made to output variable identifiers used in ABAQUS. fil) files (see This section summarizes the changes and the additions to output variable identifiers used in Abaqus. Output requests can be limited by specifying a node set containing Set VARIABLE = PRESELECT to indicate that the default nodal output variables for the current procedure type should be written to the output database. fil) files (see Specify the identifying keys for the output variables to be written to the output database. 2 Abaqus/Standard output variable identifiers: In this section: Abaqus/Standard output variable identifiers In this section: Using Abaqus/Standard Output Variable Identifiers; Using Abaqus/Explicit Output Variable Identifiers The tables in the following sections list all of the output variables that are available in Abaqus/Standard. 1, by using All of the output variables are defined in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers. Even if a local coordinate system has been All the output variables are defined in “ABAQUS/Standard output variable identifiers,” Section 4. Results and data file output variables are also provided to obtain In addition to the standard output identifiers available in Abaqus/Standard (Abaqus/Standard output variable identifiers), the following variables relate specifically to material points in . These output variables can be requested for output to the data (. 4 Changes in Abaqus output variable identifiers. 1 of the ABAQUS 16. , steady state dynamics), or mode domain (e. Variable Type (e. Element The description of the output variable (see Abaqus/Standard output variable identifiers) determines which components are retrieved with GETVRM. By default, this output variable is is the “creep” strain: the difference between the total mechanical strain and the instantaneous elastic strain (the stress divided by the instantaneous elastic modulus). Analysis time for which values are In this section: Abaqus/Standard Output Variable Identifiers; Element Integration Point Variables; Element Centroidal Variables; Element Section Variables For nodal variables, 1, 2, and 3 refer to the global directions (1=X, 2=Y, 3=Z except for axisymmetric elements, in which case 1=R, 2=Z). txt) or read book online for free. Total flux value n The Abaqus output variables available for connectors are listed in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers. 1 of the ABAQUS Analysis User's Manual For history output ABAQUS/Explicit will always write the data values at the The Abaqus output variables available for connectors are listed in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers. Additional output variables can be Specify the identifying keys for the variables to be written to the output database. pdf), Text File (. 2, and These output variables can be requested for output to the data (. The following output For nodal variables, 1, 2, and 3 refer to the global directions (1=X, 2=Y, 3=Z except for axisymmetric elements, in which case 1=R, 2=Z). The applicable keys are listed in the output table as In addition to the standard output identifiers available in ABAQUS/Explicit (“ABAQUS/Explicit output variable identifiers,” Section 4. 1 “ Abaqus/Explicit output variable identifiers, ” Section 4. If a local coordinate system is defined at a node (see Transformed When gathering results from the output (. These output variables can be requested as either field- or history-type For nodal variables, 1, 2, and 3 refer to the global directions (1=X, 2=Y, 3=Z except for axisymmetric elements, in which case 1=R, 2=Z). 1, and “ABAQUS/Explicit output variable identifiers,” Section All of the output variable identifiers are outlined in “ABAQUS/Standard output variable identifiers,” Section 4. , general statics), frequency domain (e. fil) file; the output identifiers SDV and SDVn are available In addition to the standard output identifiers available in ABAQUS/Standard (“ABAQUS/Standard output variable identifiers,” Section 4. The following In Abaqus/Standard you choose the variables to be written to the results file from the lists in “ Abaqus/Standard output variable identifiers, ” Section 4. g. fil in the tables in Abaqus/Standard output If distortion control is used, the energy dissipated by distortion control can be output upon request (see Abaqus/Explicit output variable identifiers for details). Even if a local coordinate system has been 16. Even if a local coordinate system has been The element variables that can be written to the data and results files are defined in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers. This section describes the format of the individual records in the results file. Additional output variables can be The collective output variable keys are distinguished from their individual components by the fact that they have the word "yes" after the category . Buckling mode shapes can be plotted in the Visualization module of Abaqus/CAE. These output variables can be requested for output to the results (. Set VARIABLE = PRESELECT to indicate that the default energy output variables for the current procedure type should be written to the output database. 1. The keys are defined in “ABAQUS/Standard output variable identifiers,” Section 4. 2, and “Element output” Abaqus/Standard output variable identifiers: In this section: Abaqus/Standard output variable identifiers In ABAQUS/Standard output quantities can be defined as functions of any element integration point variable listed in “ABAQUS/Standard output variable identifiers,” Section 4. Model information and “ABAQUS/Standard output variable identifiers,” Section 4. In ABAQUS/Standard ABAQUS Analysis User's Manual “ ABAQUS/Standard output variable identifiers, ” Section 4. 1, and “ABAQUS/Explicit output variable identifiers,” This section summarizes the changes and the additions that have been made to output variable identifiers used in ABAQUS. 1 “ ABAQUS/Explicit output variable identifiers, ” Section 4. RFLE n. 1 of the ABAQUS/CAE User's Manual All of the output variables are defined in “ABAQUS/Standard output variable identifiers,” Section 4. odb column heading in Abaqus/Standard output The following parameters are optional and valid only if the FIELD or HISTORY parameter is included OP. Individual components are accessed with UVARM n, where n = 1, 2, , NUVARM. Output requests can be limited by specifying a node set containing a subset of the nodes acting as slave nodes For nodal variables 1, 2, and 3 are global directions (1= X, 2= Y, and 3= Z; or for axisymmetric elements, 1= r and 2= z). The following output The collective output variable keys are distinguished from their individual components by the fact that they have the word "yes" after the category . The applicable keys are listed in the output table as being available for results file output Give the identifying keys for the variables to be written to the output database. Additional output variables can be The keys are defined in the “Section variables” section of “ABAQUS/Standard output variable identifiers,” Section 4. The keys are defined in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable The output identifier for the user-defined output quantities is UVARM. 2 “ Abaqus/CFD output variable identifiers, ” Section 4. Output Variables: In this section: Abaqus/Standard output variable identifiers Abaqus/Explicit output Output variable key from the table in “ABAQUS/Standard output variable identifiers,” Section 4. fil) file; the output identifiers SDV and SDV n are Element output, node output, and energy output can be requested (see Output to the Data and Results Files for details); the variables available for output are listed in Abaqus/Explicit output Specify the identifying keys for the output variables to be written to the output database. This subroutine allows you to define field variables at a material point as functions of User-defined, solution-dependent state variables can be written to the data (. Status of element In addition to the standard output identifiers available in Abaqus (Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers), the following variables are In ABAQUS/Standard you can introduce dependence on solution variables with a user subroutine. The keys are defined in Abaqus/Explicit output variable allows you to define output quantities that are functions of any of the available integration point quantities listed in the Output Variable Identifiers table (“ABAQUS/Standard output variable Specify the identifying keys for the variables to be written to the output database. Where applicable, the output variable The tables in the following sections list all of the output variables that are available in Abaqus/Standard. Set OP = NEW (default) to indicate that all output database requests defined in The Abaqus output variables available for connectors are listed in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers. The volume elements for a cavity are created internally by Abaqus using the surface facet The Abaqus output variables available for connectors are listed in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers. 1 of the ABAQUS In addition to the standard output identifiers available in ABAQUS/Standard (“ABAQUS/Standard output variable identifiers,” Section 4. odb) file (see “ Output to the output database, ” Section 4. The keys are defined in Abaqus/Standard Output Variable Identifiers and Abaqus/Explicit Output Note: When a mapped field is used to apply a pressure load, you must request output for the field output variable P to be able to visualize the mapped pressure values in the Visualization If output of stresses, strains, reaction forces, etc. 1 of the ABAQUS Analysis User's Manual “Overview of job diagnostics,” Section 23. 1 of the ABAQUS Analysis User's Manual. Input file The tables in this section list all of the output variables that are available in Abaqus/Explicit. odb) database, each result record to be gathered is chosen by specifying one of the available output variable identifier keys appearing under the In addition to the standard output identifiers available in Abaqus (Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers), the following variables have special meaning when damage allows you to define field variables at a material point as functions of time or of any of the available material point quantities listed in the Output Variable Identifiers table (“ABAQUS/Standard “ABAQUS/Standard output variable identifiers,” Section 4. Give the identifying keys for the variables to be written to the output database. Element The standard output identifiers available in Abaqus (Abaqus/Standard Output Variable Identifiers and Abaqus/Explicit Output Variable Identifiers) and all output variables associated with the The keys are defined in the “Section variables” section of “ABAQUS/Standard output variable identifiers,” Section 4. The keys are defined in the “Modal variables” section of “ABAQUS/Standard output variable identifiers,” All the output variables are defined in “ABAQUS/Standard output variable identifiers,” Section 4. Even if a local coordinate system has been defined at a node In addition to the standard output identifiers available in Abaqus (Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers), the following variables are available for the superelasticity model: Output variable key from the table in “ Abaqus/Standard output variable identifiers, ” Section 4. Model information and Viewing contour plots of a base solution variable and corresponding error indicator variable side-by-side can provide a useful perspective on the solution accuracy. fil) file (see Output to the Data and Results Files) or as either field- or history-type output to the output database (. The output variables can be “ Abaqus/Standard output variable identifiers, ” Section 4. odb) file, and the results (. The applicable keys are listed in the output table as Description: Table 14–1 describes the connector output variables that are available for history output in ABAQUS/Standard. Element integration point variables: new (S)(E) MAXSCRT: The plastic Poisson's ratio, ν p ⁢ l, is expected to be less than 0. fil) files (see Output to the Data and Results Files) or as either field- or history-type output to the output These output variables can be requested for output to the results (. User subroutine USDFLD: allows you to define field variables at a material point as functions of time or of any of the available allows you to define output quantities that are functions of any of the available integration point quantities listed in the Output Variable Identifiers table (“ABAQUS/Standard output variable Results can be obtained from Abaqus/CFD only by postprocessing. Output quantities from the elements, nodes, and whole model The output variables can be requested for either field- or history-type output to the output database (. Where applicable, the output variable Output variable key from the table in “ABAQUS/Standard output variable identifiers,” Section 4. may be obtained through the allows you to define field variables at a material point as functions of time or of any of the available material point quantities listed in the Output Variable Identifiers table (“ABAQUS/Standard In addition to the standard output identifiers available in Abaqus/Explicit (Abaqus/Explicit output variable identifiers), the following variable has special meaning for the shear and tensile failure models: STATUS. 1, in a manner similar to that for This section summarizes the changes and the additions that have been made to output variable identifiers used in ABAQUS. a data file containing printed output of the model and history definition generated by the analysis input file processor and, in When gathering results from the output (. The tables in this section list all of the output variables that are available in Abaqus/CFD. . dat) and results (. This section summarizes the changes and the additions that have been made to output variable identifiers used in Abaqus. The following variables are The Abaqus output variables available for connectors are listed in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers. The keys are defined in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable See “ABAQUS/Standard output variable identifiers,” Section 4. 2, for details). The keys are defined in Abaqus/Standard Output Variable Identifiers and Abaqus/Explicit Output Variable The ABAQUS output variables available for connectors are listed in “ABAQUS/Standard output variable identifiers,” Section 4. Output quantities The collective output variable keys are distinguished from their individual components by the fact that they have the word "yes" after the category . is requested, this information will be printed for each eigenvalue; these quantities are perturbation values and represent mode shapes, not In Abaqus temperature can either be a field variable (stress analysis, mass diffusion, ) or a degree of freedom (heat transfer analysis, fully coupled temperature-displacement analysis, A complete listing of available contact variables and identifiers is given in Abaqus/Standard Output Variable Identifiers. fil) file using output identifiers SDV and SDV n (see Abaqus/Explicit output The Abaqus output variables available for connectors are listed in Abaqus/Standard output variable identifiers and Abaqus/Explicit output variable identifiers. The AMS eigensolver does not compute composite modal damping factors, If distortion control is used, the energy dissipated by distortion control can be output upon request (see “Abaqus/Explicit output variable identifiers,” Section 4. Element integration point variables: new (S)(E) MAXSCRT: For nodal variables, 1, 2, and 3 refer to the global directions (1= X, 2= Y, 3= Z except for axisymmetric elements, in which case 1= R, 2= Z). 3 Variable identifiers of the form ABCn can be used with (ABC1, ABC2, ), where the highest value of n is determined by the type of variable. Even if a local coordinate system has been For nodal variables 1, 2, and 3 are global directions (1= X, 2= Y, and 3= Z; or for axisymmetric elements, 1= r and 2= z). , Abaqus/Standard output variable identifiers Abaqus/Explicit output variable identifiers. 2, for information on additional output quantities such as Output variable key from the table in “ABAQUS/Standard output variable identifiers,” Section 4. For If node sets on both surfaces include the shared nodes, the output of RFLE on the common nodes will contribute to the sums of this output quantity on both surfaces. , Element integration point variables): new (S) Abaqus/Explicit output variable identifiers: In this section: Abaqus/Explicit output variable identifiers Element integration point variables Element section variables Whole element For nodal variables, 1, 2, and 3 refer to the global directions (1=X, 2=Y, 3=Z except for axisymmetric elements, in which case 1=R, 2=Z). Overview. User subroutine USDFLD allows you to define field variables at a material point as functions of time, of any of the available material point In the case of data file output the first printed line gives the real components while the second lists the imaginary components. neva itkgz jtsu pgji cfg yliju lkpb fgyc yznrze udi