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FEM Simple Beam any% 1:27 [FWR] - Siemens NX12
FEM Simple Beam any%
General Rules:
- Any%: The primary objective is to complete the analysis and trigger the final animation as fast as possible. Optimization of the mesh quality, realistic material properties, or physical accuracy of the results is not required, provided the simulation successfully solves.
- Software: Siemens NX (any version) or equivalent standard CAD/CAE software.
Timing (Start & End):
- Start: The run begins on the main workspace screen with a freshly created, empty part file already opened. The timer starts exactly on the first registered mouse movement or keyboard input.
- End (Time): The run ends on the exact frame the runner clicks the "Play" button (or equivalent) in the post-processing module to animate the displacement results. The animation must successfully initialize and show the continuous, colorful bending of the meshed beam.
Run Requirements (Step-by-Step):
- Geometry Creation: The runner must model a 3D solid that resembles a structural beam. The geometry can be created using a 2D sketch (square, rectangle, or circle) on any plane followed by an Extrude operation, OR by using a single direct primitive tool (e.g., Block, Cylinder).
- Dimension Constraint: Exact dimensions are completely arbitrary, but the final shape must visually be a beam (i.e., its length must visibly dominate its cross-sectional width/diameter).
- FEM Initialization: The runner must switch to the Pre/Post application (or equivalent FEA environment) and create a new Finite Element Model (FEM) file.
- Material & Meshing: The runner must assign any valid material to the solid body and successfully generate a 3D mesh (e.g., Tetra4). Mesh size and parameters are entirely up to the runner.
- Simulation Setup: The runner must create a new Simulation (SIM) file and define a structural solution.
- Boundary Conditions & Loads: The runner must apply appropriate constraints (e.g., fixed support, pinned support) and at least one load (e.g., force) to the beam. Placement is arbitrary, but it must allow the solver to calculate a bending displacement.
- Solving: The runner must execute the "Solve" command. If the solver fails due to missing constraints or fatal errors, the run is considered dead.
- Post-Processing: Once solved, the runner must navigate to the results window, open the Displacement contour plot, and trigger the animation loop to finish the run.
Видео FEM Simple Beam any% 1:27 [FWR] - Siemens NX12 канала TymianQ
General Rules:
- Any%: The primary objective is to complete the analysis and trigger the final animation as fast as possible. Optimization of the mesh quality, realistic material properties, or physical accuracy of the results is not required, provided the simulation successfully solves.
- Software: Siemens NX (any version) or equivalent standard CAD/CAE software.
Timing (Start & End):
- Start: The run begins on the main workspace screen with a freshly created, empty part file already opened. The timer starts exactly on the first registered mouse movement or keyboard input.
- End (Time): The run ends on the exact frame the runner clicks the "Play" button (or equivalent) in the post-processing module to animate the displacement results. The animation must successfully initialize and show the continuous, colorful bending of the meshed beam.
Run Requirements (Step-by-Step):
- Geometry Creation: The runner must model a 3D solid that resembles a structural beam. The geometry can be created using a 2D sketch (square, rectangle, or circle) on any plane followed by an Extrude operation, OR by using a single direct primitive tool (e.g., Block, Cylinder).
- Dimension Constraint: Exact dimensions are completely arbitrary, but the final shape must visually be a beam (i.e., its length must visibly dominate its cross-sectional width/diameter).
- FEM Initialization: The runner must switch to the Pre/Post application (or equivalent FEA environment) and create a new Finite Element Model (FEM) file.
- Material & Meshing: The runner must assign any valid material to the solid body and successfully generate a 3D mesh (e.g., Tetra4). Mesh size and parameters are entirely up to the runner.
- Simulation Setup: The runner must create a new Simulation (SIM) file and define a structural solution.
- Boundary Conditions & Loads: The runner must apply appropriate constraints (e.g., fixed support, pinned support) and at least one load (e.g., force) to the beam. Placement is arbitrary, but it must allow the solver to calculate a bending displacement.
- Solving: The runner must execute the "Solve" command. If the solver fails due to missing constraints or fatal errors, the run is considered dead.
- Post-Processing: Once solved, the runner must navigate to the results window, open the Displacement contour plot, and trigger the animation loop to finish the run.
Видео FEM Simple Beam any% 1:27 [FWR] - Siemens NX12 канала TymianQ
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Информация о видео
11 мая 2026 г. 20:51:12
00:01:43
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