ProductsAbaqus/StandardAbaqus/ExplicitAbaqus/CAE Saving the analysis resultsThe restart files from the original analysis contain the analysis results that are transferred from Abaqus/Standard or Abaqus/Explicit. Obtaining restart files is described in more detail in Writing restart files; brief summaries are provided below. By default, Abaqus/Standard does not write any restart information and Abaqus/Explicit writes results at the beginning and end of each step. Saving results from Abaqus/StandardIf the results are to be imported from an Abaqus/Standard analysis, the results from the original Abaqus/Standard job must be written to the restart (.res), analysis database (.mdl and .stt), part (.prt), and output database (.odb) files. You can specify the increments at which restart information will be written. Restart information is always written at the end of a step in addition to the requested increments whenever you request restart data in Abaqus/Standard. Input File Usage RESTART, WRITE, FREQUENCY=n Abaqus/CAE Usage Step module: n in the Frequency column for each step: enter Saving results from Abaqus/ExplicitIf the results are to be imported from an Abaqus/Explicit analysis, the results from the original Abaqus/Explicit job must be written to the state (.abq) file at the time when transfer of the state of the deformed body is required. The state (.abq), restart (.res), analysis database (.stt), package (.pac), part (.prt), and output database (.odb) files will be used for importing the results from Abaqus/Explicit. You can specify whether the results are to be written at the exact time dictated by the specified time interval, n, during a step of an Abaqus/Explicit analysis or at the increment ending after the time dictated by the specified time interval. Results are always written at the end of a step, so it is not necessary to request results at the exact time intervals if results will be read only from the end of a step. Input File Usage Use the following option to request results at the increments ending immediately after each time interval: RESTART, WRITE, NUMBER INTERVAL=n, TIME MARKS=NO Use the following option to request results at the exact time intervals: RESTART, WRITE, NUMBER INTERVAL=n, TIME MARKS=YES Abaqus/CAE Usage Step module: n in the Number Interval column; click to check the Time Marks column for each step if you want the results written at the exact time intervals: enter Specifying the transfer of model data and resultsThe import capability is used to transfer model data and results from one analysis to another. The following sections describe how to specify the import request. You can import element sets from models that are not defined as assemblies of part instances, or you can import part instances from models that are defined as assemblies of part instances. In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Although elements of different types, (such as C3D4, C3D6, C3D8R, etc.) can be specified in the same element set used in a section definition, the maximum number of element types is limited to three if the model is to be used in an import analysis. Specifying the transfer of model data and results for models that are not defined as assemblies of part instancesYou can import element sets from a previous analysis to specify the transfer of model data and results for models that are not defined as assemblies of part instances. This import capability is illustrated in Springback of two-dimensional draw bending and Axisymmetric forming of a circular cup. Each element set to be imported must have been defined in the original analysis. You can import any element set, including nested element sets and those with overlapping elements. An imported element set can also be a subset of another imported element set. The elements in these sets as well as the element set definitions are imported. Even though an element may be included in multiple imported elements sets, each element is imported only once in the import analysis. You cannot use element sets that are internal to the original analysis. Input File Usage Use the following option to import element sets from a previous analysis: IMPORT list of element sets that are to be imported For example, the following input imports the element set definitions for BLANK1 and BLANK2 in addition to the elements and element set definition for BLANK: Original analysis SHELL SECTION, MATERIAL=STEEL1, ELSET=BLANK1 .00082, 5 SHELL SECTION, MATERIAL=STEEL2, ELSET=BLANK2 .00082, 5 ELSET, ELSET=BLANK BLANK1, BLANK2 Import analysis IMPORT BLANK To prevent any ambiguity regarding element and node definitions, the IMPORT option must be specified before any options that define additional model data in the input file. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Repositioning elements in the model in an Abaqus/Explicit analysisIn an Abaqus/Explicit analysis you can reposition elements in the element sets from their original positions in the previous analysis to new positions in the import analysis. The new position is determined by a translation and/or rotation of the original position relative to the origin of the global coordinate system. The positioning data apply to all elements in the list of imported element sets. Element sets that require different positioning data need to be grouped separately during import. Input File Usage Use the following option to reposition imported element sets from a previous analysis: IMPORT list of element sets that are to be imported and relocated positioning data Multiple IMPORT options need to be defined for elements sets that require different positioning data. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Importing model data and results of element sets multiple times in an Abaqus/Explicit analysisYou can import model data and results of element sets from a previous analysis to an Abaqus/Explicit analysis multiple times. You must define a new name and a new position for an element set that has been imported more than once. You specify the old element set name used in the previous analysis followed by the new element set name to be used in the import analysis. The old element set name must have been defined in the previous analysis, and use of internal sets is not supported. New elements and nodes are generated with new element and node numbers for the renamed element sets. You specify element and node offsets; the new numbers are obtained by adding the offsets to the old numbers used in the previous analysis. It is your responsibility to select appropriate element and node offsets to preserve uniqueness of element and node numbering in the model. The new position is determined as described in Repositioning elements in the model in an Abaqus/Explicit analysis. To prevent multiple elements in the model from occupying identical positions, an old element set name must not appear more than once in the list of imported element sets for each import definition. Element sets that require renaming must be grouped separately during import from those that do not require renaming. Input File Usage Use the following option to rename and reposition element sets to be imported from a previous analysis: IMPORT, RENAME, EOFFSET=element-offset, NOFFSET=node-offset old_name_elem_set1, new_name_elem_set1 old_name_elem_set2, new_name_elem_set2 … positioning data Separate IMPORT options need to be defined for element sets that require renaming and/or employ different positioning data. All IMPORT options must have the same value assigned to the UPDATE and STATE parameters, as shown in the following example: IMPORT, UPDATE=NO, STATE=YES ASSEMBLY_QUADRANT_1_LOWER, ASSEMBLY_QUADRANT_1_UPPER, IMPORT, UPDATE=NO, STATE=YES, RENAME, EOFFSET=80, NOFFSET=97 ASSEMBLY_QUADRANT_1_LOWER, ASSEMBLY_QUADRANT_2_LOWER ASSEMBLY_QUADRANT_1_UPPER, ASSEMBLY_QUADRANT_2_UPPER 0., 0., 0., 0., 0., 0., 0., 0., 1., 90. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Importing element set and node set definitions one single timeAll element set and node set definitions associated with the imported elements are imported by default. For models that are not defined as assemblies of part instances, you can also selectively import only specified element set or node set definitions. This capability provides a convenient way of selectively reusing the element or node sets defined in the original analysis. However, any members of such sets that do not belong to the imported elements are removed from the specified sets. For example, suppose three element sets—SHELL3D, MEMB, and ALL—are defined in the original analysis. Element set ALL contains all of the elements in element sets SHELL3D and MEMB, as well as other elements. You choose to import only the element sets SHELL3D and MEMB (i.e., the elements in these sets as well as the element set definitions). In addition, you selectively import the element set definition ALL (but not the elements in this set). If element 100 belongs to element set ALL but not to either element set SHELL3D or element set MEMB, it will not be imported and will be removed from the list of elements belonging to element set ALL. The imported element set definitions are processed before any node or element definitions; therefore, even if element 100 is subsequently redefined in the import analysis, it will not belong to element set ALL (unless it is explicitly assigned to element set ALL in the import analysis). Only node and element sets defined in the original or previous import analysis are available for importing. New sets defined during a restart run cannot be imported. Input File Usage Use either or both of the following options immediately following the IMPORT option to import selected element or node set definitions: IMPORT ELSET IMPORT NSET For models that are defined as assemblies of part instances, you cannot selectively import element and node set definitions. All element and node set definitions are imported automatically. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. You cannot selectively import element and node set definitions in Abaqus/CAE. All element and node set definitions are imported automatically. Importing element sets and node sets multiple times in an Abaqus/Explicit analysisYou can import element sets and node sets from a previous analysis to an Abaqus/Explicit analysis multiple times. Element set and node set definitions associated with the imported elements are not imported by default, and you must define a new name for an element set or a node set that has been imported more than once. You specify the old element or node set name used in the previous analysis followed by the new element or node set name to be used in the import analysis. The old set name must have been defined in the previous analysis and use of internal sets is not supported. New elements and nodes are generated with new element and node numbers for the renamed sets using the offsets that you specified for import; the new numbers are obtained by adding the offsets to the old numbers used in the previous analysis. Element sets and node sets that require renaming must be grouped separately during import from those that do not require renaming. Input File Usage Use the following options to rename element sets and node sets to be imported from a previous analysis: IMPORT ELSET, RENAME IMPORT NSET, RENAME The IMPORT ELSET and IMPORT NSET options must immediately follow an IMPORT option with the RENAME, EOFFSET, and NOFFSET parameters specified. The offset values to be used are given by the parameter values of EOFFSET and NOFFSET of the IMPORT option immediately preceding the IMPORT ELSET and IMPORT NSET options. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Importing model data and results of element sets from multiple previous analyses in an Abaqus/Explicit analysisYou can import model data and results of element sets from multiple Abaqus/Standard analyses or multiple Abaqus/Explicit analyses to an Abaqus/Explicit analysis. However, you cannot import from a mix of Abaqus/Standard and Abaqus/Explicit analyses. You must specify the name of each previous analysis in an import definition. When importing from multiple analyses, you cannot specify the previous analysis name using the oldjob option (see Abaqus/Standard and Abaqus/Explicit execution). New elements and nodes are generated with new element and node numbers for the renamed element sets. You specify element and node offsets; the new numbers are obtained by adding the offsets to the old numbers used in the previous analysis. It is your responsibility to select appropriate element and node offsets to preserve uniqueness of element and node numbering in the model. The new position is determined as described in Repositioning elements in the model in an Abaqus/Explicit analysis. To prevent multiple elements in the model from occupying identical positions, an old element set name must not appear more than once in the list of imported element sets for each import definition. Element sets that require renaming must be grouped separately during import from those that do not require renaming. Input File Usage Use the following options to rename and reposition element sets to be imported from two previous analyses: IMPORT, LIBRARY=old-job-1 old_name_elem_set1, old_name_elem_set2, IMPORT, RENAME, EOFFSET=element-offset, NOFFSET=node-offset, LIBRARY=old-job-2 old_name_elem_set3, new_name_elem_set3 old_name_elem_set4, new_name_elem_set4 … positioning data Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Specifying the transfer of model data and results for models that are defined as assemblies of part instancesYou can import part instances from a previous analysis to specify the transfer of model data and results for models that are defined as assemblies of part instances. If you import more than one part instance, the part instances must be from the same output database (.odb) file and all import parameters must be the same for each imported part instance. Each instance name that you specify must be the same as the instance name in the original analysis. Only sets that are defined within the imported instance will be imported. Sets defined at the assembly level must be redefined in the import analysis. New set definitions and surface definitions can be added upon import. You cannot assign new sections, material orientations, normals, or beam orientations to the imported part instance. Input File Usage Use the following options to import a part instance from a previous analysis: INSTANCE, INSTANCE=instance-name Additional set and surface definitions (optional) IMPORT END INSTANCE Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Load module: Create Predefined Field: Step: Initial: choose Other for the Category and Initial State for the Types for Selected Step: select the instances to which the initial state should be assigned Repositioning part instances in the model in an Abaqus/Explicit analysisYou can import a part instance in an Abaqus/Explicit analysis and specify a new position for the part instance in the imported model. The new position is determined by a translation and/or rotation of the original position relative to the origin of the assembly (global) coordinate system. Input File Usage Use the following options to import and reposition a part instance from a previous analysis: INSTANCE, INSTANCE=instance-name positioning data Additional set and surface definitions (optional) IMPORT END INSTANCE Abaqus/CAE Usage Repositioning part instances in the model is not supported in Abaqus/CAE. Importing part instances in the model multiple times in an Abaqus/Explicit analysisIn an Abaqus/Explicit analysis you can import a part instance from a previous analysis more than once. A part instance must be instanced separately in the assembly each time it is imported. In each instance, you must define a new name and a new position for a part instance that has been imported more than once. You specify the old name of the part instance in the previous analysis and a new name for the part instance. The new position is determined by a translation and/or rotation of the original position relative to the origin of the assembly (global) coordinate system. Sets defined within the part instance will be imported and repositioned. Sets defined at the assembly level must be redefined in the import analysis. New set definitions and surface definitions can be added upon import. You cannot assign new sections, material orientations, normals, or beam orientations to the imported part instance. If you import more than one part instance, the part instances must be from the same output database (.odb) file and all import parameters must be the same for each imported part instance. Input File Usage Use the following options to import a part instance more than once from a previous analysis: INSTANCE, NAME=new instance-name, INSTANCE=old instance-name positioning data Additional set and surface definitions (optional) IMPORT END INSTANCE Abaqus/CAE Usage Importing part instances in the model multiple times is not supported in Abaqus/CAE. Importing part instances in the model from multiple previous analyses in an Abaqus/Explicit analysisFor models defined as assemblies of part instances, you must specify the name of each previous analysis in an instance definition when importing from multiple previous analyses. A part instance must be instanced separately in the assembly from an individual previous analysis each time it is imported. In each instance you must define a new name and a new position for a part instance that has been imported more than once. You specify the old name of the part instance in the previous analysis and a new name for the part instance. The new position is determined by a translation and/or rotation of the original position relative to the origin of the assembly (global) coordinate system. Sets defined within the part instance are imported and repositioned. Sets defined at the assembly level must be redefined in the import analysis. New set definitions and surface definitions can be added upon import. You cannot assign new sections, material orientations, normals, or beam orientations to the imported part instance. If you import more than one part instance, all import parameters must be the same for each imported part instance. Input File Usage Use the following options to import part instances from two previous analyses: INSTANCE, NAME=Quarter_S1, INSTANCE=Quarter_1, LIBRARY=cplate_assem_step1 0., 0., 0., 0., 0., 0., 0., 0., 1., 90. IMPORT, UPDATE=NO, STATE=YES END INSTANCE INSTANCE, NAME=Quarter_S2, INSTANCE=Quarter_1, LIBRARY=cplate_assem_step2 0., 0., 0., 0., 0., 0., 0., 0., 1., 180. IMPORT, UPDATE=NO, STATE=YES END INSTANCE Abaqus/CAE Usage Importing part instances in the model from multiple previous analyses is not supported in Abaqus/CAE. Identifying the analysis from which the data will be obtained when importing from a single previous analysisYou must specify the name of the job from which the model and results data will be obtained. Input File Usage For all models you can enter the following input on the command line: abaqus job=job-name oldjob=oldjob-name If the oldjob parameter is omitted, Abaqus will prompt for the job name (see Abaqus/Standard and Abaqus/Explicit execution) even if the current job is an Abaqus/Explicit analysis that uses the recover option to restart from the last available step and increment in the state file. Alternatively, for models defined as element sets, you can use the following option: IMPORT, LIBRARY=oldjob-name and for models defined as assemblies of part instances, you can use the following option: INSTANCE, LIBRARY=oldjob-name If you input more than one IMPORT option or INSTANCE option, the oldjob-name specified by the LIBRARY parameter must be the same for each option. If the job name is specified on the command line using the oldjob option, the command line specification will take precedence over the LIBRARY parameter. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Load module: Create Predefined Field: Step: Initial: choose Other for the Category and Initial State for the Types for Selected Step: Job name: output-database-name Identifying the individual analysis from which the data will be obtained when importing from multiple previous analysesYou must specify the name of the analysis from which the model data and results will be obtained. Input File Usage For models defined as element sets, you must use the following option: IMPORT, LIBRARY=oldjob-name For models defined as assemblies of part instances, you must use the following option: INSTANCE, LIBRARY=oldjob-name When importing from multiple previous analyses, the individual job name must be given by the LIBRARY parameter. You should not use the oldjob option on the command line (see Abaqus/Standard and Abaqus/Explicit execution). Abaqus/CAE Usage Importing part instances in the model from multiple previous analyses is not supported in Abaqus/CAE. Importing model dataElement property definitions of imported elements can be redefined only if the reference configuration is updated (see Updating the reference configuration) and the material state is not imported (see Importing the material state). In this case the material orientation definitions (Orientations), hourglass stiffness but not hourglass control definitions, and transverse shear stiffness definitions (in the case of shell elements) of the imported elements can also be redefined. For other reference configuration and material state combinations, the information required to define the section for each imported element will be imported from the original analysis. Material orientations cannot be redefined in the import analysis; orientation names cannot be reused in the import analysis. For imported elements, the material orientations will be transferred from the original analysis. Transverse shear stiffness for imported shell elements cannot be redefined; the values will be transferred from the original analysis. Hourglass stiffness for the imported elements cannot be redefined in an Abaqus/Standard import analysis; the default values will be used. The section control definitions (kinematic formulation, order of accuracy in the element formulation, and hourglass control approach) to be used for imported elements cannot be redefined (see Transferring results between Abaqus/Explicit and Abaqus/Standard for details). Mass adjustment contributions (see Mass adjustment) applied to an element set are always included when the element set is imported. There is no need to redefine these contributions in the import analysis unless different mass adjustment is required for the element set. Nonstructural mass contributions (see Nonstructural mass definition) associated with an element set are not imported. These contributions need to be redefined in the import analysis if they are to be included in the model. Only nodes associated with the imported elements are imported. New nodes can be defined in the import analysis. Nodes or elements that use the same numbers as nodes or elements being imported can be defined provided that the reference configuration is updated, the material state is not imported, and the import is not done from an instance library. The new definitions will overwrite the imported definitions. If the reference configuration is not updated, new nodes or elements cannot use the imported node and element numbers irrespective of whether or not the material state is imported. During results transfer from an Abaqus/Standard analysis to another Abaqus/Standard analysis or from an Abaqus/Explicit to another Abaqus/Explicit analysis, the coordinates of imported nodes can be modified from their imported values by respecifying the nodal definitions if the reference configuration is updated and the material state is not imported. This modification of the coordinates of imported nodes is not allowed during transfer of results from Abaqus/Explicit to Abaqus/Standard or vice versa. Importing model data defined by a distributionWhile transferring results from one Abaqus/Standard analysis to another Abaqus/Standard analysis, most element or material properties defined by a distribution (see Distribution definition) are imported along with the elements. The only exceptions are spatially varying thicknesses and orientation angles defined on the layers of composite shells and solids; in this case Abaqus issues an error message during input file preprocessing. While transferring results from an Abaqus/Explicit analysis to an Abaqus/Standard analysis, the only spatially varying element properties defined by a distribution that can be imported are shell thicknesses and section orientations for shell and solid elements. If any other element or material properties are defined with a distribution, Abaqus issues an error message during input file preprocessing. While transferring results from an Abaqus/Standard analysis to an Abaqus/Explicit analysis or from an Abaqus/Explicit analysis to another Abaqus/Explicit analysis, the only spatially varying element properties defined by a distribution that can be imported are shell thicknesses, section orientations for shell and solid elements, orientation angles defined for shell sections on the layers of composite shells, and section stiffness matrices specified directly for general shell sections. If any other element or material properties are defined with a distribution, Abaqus issues an error message during input file preprocessing. If an element set consists of elements whose properties are defined by one or more distributions, the element set cannot be imported more than once. Section and material properties of imported elements can be redefined with distributions only if the reference configuration is updated (see Updating the reference configuration) and the material state is not imported (see Importing the material state). In this case the material orientation definitions (Orientations), hourglass stiffness but not hourglass control definitions, and transverse shear stiffness definitions (in the case of shell elements) of the imported elements can also be redefined. Importing results from an Abaqus/Standard analysis (other than a direct cyclic analysis)If the results are imported from an Abaqus/Standard analysis, you can specify the step and increment in the restart file for which the results are to be imported. By default, the results written at the end of the analysis are imported. Input File Usage IMPORT, STEP=step, INCREMENT=increment For models that are defined as assemblies of part instances, the IMPORT option must appear within a part instance definition. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Load module: Create Predefined Field: Step: Initial: choose Other for the Category and Initial State for the Types for Selected Step: select instances: Step: select Specify: step and Frame: select Specify: increment Importing results from an Abaqus/Standard direct cyclic analysisIf the results are imported from a direct cyclic analysis, you can specify the step and iteration number in the restart file for which the results are to be imported. By default, the results written at the end of the analysis are imported. Input File Usage IMPORT, STEP=step, ITERATION=iteration For models that are defined as assemblies of part instances, the IMPORT option must appear within a part instance definition. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Load module: Create Predefined Field: Step: Initial: choose Other for the Category and Initial State for the Types for Selected Step: select instances: Step: select Specify: step and Frame: select Specify: iteration Importing results from an Abaqus/Explicit analysisIf the results are imported from an Abaqus/Explicit analysis, you can specify the step and interval in the state file for which the results are to be imported. By default, the results written at the end of the analysis are imported. Input File Usage IMPORT, STEP=step, INTERVAL=interval For models that are defined as assemblies of part instances, the IMPORT option must appear within a part instance definition. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Load module: Create Predefined Field: Step: Initial: choose Other for the Category and Initial State for the Types for Selected Step: select instances: Step: select Specify: step and Frame: select Specify: interval Updating the reference configurationOnce the current model configuration of an Abaqus analysis is imported into Abaqus/Explicit or Abaqus/Standard, the analysis can be continued with or without updating the reference configuration to be the imported configuration. If the reference configuration is not updated to be the imported configuration, the displacements and strains are reported as total values relative to the original reference configuration and will, hence, be continuous. If the reference configuration is updated to be the imported configuration, displacements and strains reported in the import analysis are the total values relative to the updated reference configuration. This choice is useful if results need to be displayed relative to the imported configuration, such as may be desirable in springback analysis. The reference configuration cannot be updated if the imported analysis is geometrically linear. The choice of whether or not to update the reference configuration can influence strain-free nodal adjustments associated with contact initialization in Abaqus/Standard. Strain-free adjustments can be used to resolve penetrations or gaps that exist in the reference configuration in Abaqus/Standard, so prior displacements are not considered by the strain-free adjustment algorithm upon import if the reference configuration is not updated. Strain-free nodal adjustments in Abaqus/Explicit are based on the current configuration rather than the reference configuration, so these adjustments are not sensitive to whether the reference configuration is updated in Abaqus/Explicit. Further details on strain-free adjustments are provided in Default contact initialization method, Controlling initial contact status in Abaqus/Standard, Controlling initial contact status for general contact in Abaqus/Explicit, and Adjusting initial surface positions and specifying initial clearances for contact pairs in Abaqus/Explicit. If connector elements are imported, the configuration can be updated provided that the state is not imported. When hyperelastic materials are imported, the configuration must be updated if the state is not imported. Input File Usage Use the following option to specify that the reference configuration is to be updated to the imported configuration: IMPORT, STEP=step, UPDATE=YES Use the following option to specify that the reference configuration should not be updated to the imported configuration: IMPORT, STEP=step, UPDATE=NO For models that are defined as assemblies of part instances, the IMPORT option must appear within a part instance definition. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Load module: Create Predefined Field: Step: Initial: choose Other for the Category and Initial State for the Types for Selected Step: toggle Update reference configuration on or off Importing the material stateYou can specify whether or not the associated material state should be imported. If you choose to import the material state, the following are imported:
Thus, the state is imported correctly for further analysis only for the following:
For all other material models only stresses will be imported. No other state variables will be imported. If the material behavior is defined in a user subroutine, you must ensure that the UMAT and VUMAT are consistent. If connector elements are imported, the state can be imported provided that the configuration is not updated. When hyperelastic materials are imported, the state must be imported if the configuration is not updated. Input File Usage Use the following option to specify that the material state should be imported: IMPORT, STATE=YES Use the following option to specify that the material state should not be imported: IMPORT, STATE=NO For models that are defined as assemblies of part instances, the IMPORT option must appear within a part instance definition. Abaqus/CAE Usage In Abaqus/CAE you can import model data and results only from models that are defined as assemblies of part instances. Abaqus/CAE always imports the material state. If you want to import only the deformed mesh, you can import an orphan mesh from a selected step and increment of an output database; see What kinds of files can be imported and exported from Abaqus/CAE?. Importing rigid bodiesA rigid body defined with an element set in the original analysis will be imported by default if all elements in the element set are imported; that is, if all of the rigid body elements belong to the imported element sets. The reference node of an imported rigid body is imported automatically, and you should not specify a new reference node for the imported rigid body. If the reference node of an imported rigid body is defined by a node set, the reference node set can be included in the imported node sets. If all elements belonging to a rigid body are imported multiple times, the rigid body and its reference node are imported the same number of times automatically. Multiple import of a rigid body with pin nodes or tie nodes assigned to the rigid body is not supported. A rigid body from an original analysis cannot be partially imported; that is, the full complement of rigid body elements must be imported. An assembly-level rigid body from the original analysis with parts and instances can be imported only if it refers to a reference node set defined at the part instance level in the original analysis. If the reference node is defined at the assembly level, the set and the rigid body cannot be imported. Defining constraints upon importMost constraints (such as multi-point constraints and surface-based tie constraints) are not imported from the original analysis and must be redefined in the import analysis. Using the reference configuration of the original analysis without update ensures identical reproduction of these constraints in the import analysis. If a new constraint is defined in the import analysis, it is important to ensure that the constraint is not in violation either in the reference configuration or in the starting configuration of the import analysis. These two configurations are one and the same for newly introduced nodes. If a new constraint involves nodes of the original analysis, it is appropriate to update the reference configuration for the import analysis (see Updating the reference configuration for more information). In an Abaqus/Standard analysis with adaptive meshing and acoustic-to-structure tie constraints, the structural as well as the acoustic nodes may move from their initial positions. When such acoustic and structure meshes are imported from Abaqus/Standard into Abaqus/Explicit without updating the reference configuration, the acoustic elements at the interface may appear distorted when viewed in the undeformed plot mode in the Visualization module of Abaqus/CAE. This distortion appears because the reference configuration for the acoustic nodes is updated automatically while the configuration for the non-acoustic nodes is not. The deformed plot at time=0 displays the correct mesh. Specifying a tolerance for shell normals in the updated configurationWhen the imported configuration is updated upon import, the mesh discretization may not satisfy the mesh geometry checks imposed in Abaqus/Explicit or Abaqus/Standard to evaluate whether or not a mesh is reasonable. In the case of highly warped shell elements it is possible that the normal at the center of the element that is calculated from the midsurface interpolation may differ from the normal that is interpolated from the rotated normals at the nodes. If the difference exceeds the tolerance specified, the analysis will terminate. This suggests that a fine mesh may be required to model areas of high curvature change to achieve a successful analysis. The unit normal computed from the midsurface interpolation, , and that predicted by the interpolation of the rotated normals at the nodes, , must satisfy the condition: where you can specify the tolerance, . If you do not specify a tolerance value, a default value of = 0.1 is used. Input File Usage If you update the reference configuration to be the imported configuration, you can specify a tolerance for error checking on shell normals: IMPORT CONTROLS, NORMAL TOL= Abaqus/CAE Usage The shell normal tolerance is not supported in Abaqus/CAE. Limitations for import from multiple previous analysesThe capability to import from multiple previous analyses has the following known limitations:
|