Collectors are named organizational containers for collected entities. Collected entities are nameless entities which must
reside within one, and only one, collector. Collected entities are mutually exclusive to a collector.
Ale Fsi Projection entities provide a coupling method for simulating the interaction between a Lagrangian material
set (structure) and ALE material set (fluid).
Ale Reference System Curve entities defines a motion and/or a deformation prescribed for a geometric entity, where
a geometric entity may be any part, part set, node set, or segment set.
Ale Reference System Switch entities allows for the time-dependent switches between different types of reference systems,
that is, switching to multiple PRTYPEs at different times during the simulation.
Ale Tank Test keyword provides curve through an engineering approximation when control volume airbags only require
two engineering curves to define gas inflator and those two curves can be experimentally measured but the ALE inflator
needs one additional state variable - the inlet gas velocity which is impractical to obtain.
In LS-DYNA, damping entities define damping applied on the parts and nodes in case of *DAMPING_GLOBAL. In Radioss, damping entities used to set Rayleigh mass and stiffness damping coefficients are applied to a set of nodes
used to stabilize the results.
This task is an example of thermal analysis mapping using heat transfer coefficients and bulk temperatures. This mapping
option is available for the OptiStruct profile. CSV files or result logs from AcuSolve can also be used as a source.
This method is useful when transferring data from existing solver decks (.bdf, .fem, .inp, and so forth) to new meshed models. Old mesh shape functions are used with this method.
When source data is not in the correct location and overlaps with the target model, the tools provided in the Field Realization dialog can be used to transform the source model to the target model's location with linear transformation,
rotation, or scale methods.
Joint entities define the kinematic relationship between two bodies (for Ball, Cylinder, Revolute, Slider joints) or three
bodies (for DoubleSlider joints).
Region entities store information used to facilitate and automate modeling practices and processes. It enables a selection
which can be common across design changes or other models, provided region data is the same.
Rigid wall entities provide a method for treating a contact between a rigid surface and nodal points of a deformable body.
In the LS-DYNA and Radioss user profiles, rigid walls can be created in the Model and Solver browsers.
Transformation entities define solver transformations, and are used to define a transformation sequence in a Position
entity, to be applied on a set of nodes or on a SolverSubmodel.
This task is an example of thermal analysis mapping using heat transfer coefficients and bulk temperatures. This mapping
option is available for the OptiStruct profile. CSV files or result logs from AcuSolve can also be used as a source.
This task is an example of thermal analysis mapping using heat transfer coefficients
and bulk temperatures. This mapping option is available for the OptiStruct profile. CSV files or result logs
from AcuSolve can also be used as a source.
Data in a .csv file can be based on a local coordinate system.
The format of the .csv file is x, y, z, value1, value2, and so
forth. The x, y, z data can be in a global or local system , including cylindrical.
In the Model Browser, right-click and select Create > Field from the menu.
In the Entity Editor, edit the field's corresponding
attributes.
In the Model Browser, right-click on the field
entity and select Realize from the menu.
In the Field Realization dialog, define the realization
settings:
Select the target mesh in the Entity field.
From the Field type drop-down menu, select
convection.
From the Interpolation drop-down menu, select the appropriate
interpolation method.
Set the Normal distance and Tolerance values as appropriate.
Select the sub-case and simulation from which the heat transfer
coefficients and bulk temperatures are to be mapped.
When you are ready, click Apply.
Data is mapped to the selected structural mesh. The following solver
entries are created for the OptiStruct profile:
Group - PCONV
Heat transfer coefficient calculated during the mapping process,
stored in card: attribute:H1.
CHBDYE
Surface elements over target or base elements.
CONV
PCONV ID and arbitrary node number (TA1) created for bulk
temperature.
SPC
An arbitrary node is created and the SPC (without any DOF) is
attached to this node. Used to store the bulk temperature calculated
during the mapping process.