2024.1
Prepare your model and run the simulation.
Prepare your model for a general AcuSolve simulation.
Define direct, derived, and constrained mesh motion.
Define how the nodes will move around certain surfaces.
View new features for HyperMesh CFD 2024.1.
Learn the basics and discover the workspace.
Discover HyperMesh CFD functionality with interactive tutorials and community resources.
Solution-centric workflows allow you to traverse through modeling environments using a dedicated UI layer.
Create, open, import, and save models.
Use the Convert tool to convert entire models between data types.
Manage CAD, FE, and 2D parametric sketch geometry.
Generate surface/volume mesh by defining mesh controls, or interactively create and edit 2D surface mesh.
Set up the simulation model, materials, domains, and boundaries.
Define radiation conditions and create emissivity models.
Use the Settings tool to define the mesh motion equation to be solved.
Define explicit motion or motion sources on solids or surfaces.
Define how to interpolate the effect of the motion created with the Direct tools.
Use the Planar Slip tool to constrain surface mesh on planar faces. Mesh on selected surfaces will only be allowed to slip tangentially along the planar surface.
Use the Guided tool to constrain/guide nodes along a given surface.
Use the Free Surface tool to specify free surfaces and impose the appropriate nodal boundary condition on the mesh motion on those surfaces. Free surface properties are defined by surface tension and contact angle parameters.
Use the No Constraints tool to allow the solver to move surfaces according to surrounding node motion.
Use the Interface Surface tool to define an interface for moving mesh. Optionally, this tool allows you to define topological baffle surfaces as an interface surface.
Define output conditions, run the simulation, and view the results.
AcuTrace is particle tracer that runs as a post-processor to AcuSolve.
Prepare your model for wind tunnel analysis using ultraFluidX.
Post-process the simulation results by creating visualizations and measurements.
Automate simulation processes with templates and utility scripts.
Once the baseline model is prepared, you can define morph volumes, morph geometry, create design shapes and run DOE studies. These tool work for both AcuSolve and ultraFluidX-based workflows.
More resources for AcuSolve and ultraFluidX solvers.
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