You can use this capability to drive an Abaqus/Explicit analysis with the results of an Abaqus/Standard analysis and vice versa. This is useful if your problem can be broken down into different stages; for example, you can use Abaqus/Explicit to analyze a metal forming problem and Abaqus/Standard to analyze the following springback. You can also use this capability to change the model definition between steps. For more information, see About transferring results between Abaqus analyses. You can also transfer results and model information from an Abaqus/Standard analysis to a new Abaqus/Standard analysis, where you can specify additional model definitions before continuing the analysis. For example, you might first study the local behavior of a particular component during an assembly process and then study the behavior of the assembled product. You can start by analyzing the local behavior of the component in an Abaqus/Standard analysis. You can then transfer the model information and results from this analysis to a second Abaqus/Standard analysis, where you can specify additional model definitions for the other components and analyze the behavior of the entire product. Abaqus/CAE always imports the material state along with the deformed mesh. If you want to import only the deformed mesh, you can import a mesh from a selected step and increment of an output database. For more information, see What kinds of files can be imported and exported from Abaqus/CAE?. Abaqus uses the imported information when you submit a job for analysis; however, Abaqus/CAE does not update the shape of the selected instances to reflect the applied deformed mesh. As a result, you should be careful when adding new instances to the assembly and positioning them relative to existing part instances. For example, a new part instance may appear to touch one of the instances associated with the initial state field; however, when the analysis applies the imported deformed mesh, the instances may become separated or overclosed. To avoid this mismatch between the undeformed state and the imported state, you may want to import the deformed mesh from the analysis instead of working with the undeformed part instance. Even if you import the deformed mesh, you must take care that the frame from which you imported the mesh is the same as the step and increment specified in the initial state field. For more information, see Importing a part from an output database. Alternatively, you can create the current model by copying it from the model that generated the previous Abaqus/Standard or Abaqus/Explicit analysis. For more information, see Manipulating models within a model database. The reference configuration is the configuration of the model from which displacements (and associated strains) are calculated. By default, Abaqus/CAE does not use the imported data to update the reference configuration. As a result, displacements and strains are calculated as total values relative to the reference configuration at the start of the original analysis, and the values will be continuous between analyses. You can change the default behavior and configure Abaqus/CAE to update the reference configuration to be the imported configuration. Abaqus/CAE now calculates displacements and strains relative to the new imported reference configuration; for example, for a springback analysis. Abaqus imposes many restrictions when you try to create an initial state field. For a detailed discussion of these limitations, see About transferring results between Abaqus analyses. For example, the mesh of the part instances that you select from the current model must match the mesh of the part instances that you are importing. You can then, for example, change the material definition, add loads and boundary conditions, and change from an Abaqus/Standard to an Abaqus/Explicit step. However, you cannot perform an operation that will change the mesh of a selected part instance; for example, you cannot partition the part instance. You can transfer results between analyses only if the original analysis used one of the following steps:
In addition, if you are importing data from one Abaqus/Standard analysis to another, the original analysis can use a coupled temperature-displacement step. You cannot import data from a linear perturbation step. In addition, Abaqus/CAE applies the following limitations:
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