Note: IGA technology lets you perform finite element analysis ( FEA ) directly on certain types of models.

Fusion Simulation is a validation tool that uses finite element analysis ( FEA ) to help you understand how a design performs under certain conditions.

This is because a finite element analysis ( FEA ) model is a discretized approximation of the actual model, so slight mathematical imbalances are introduced when the model is divided into multiple elements.

The output of a finite element analysis ( FEA ) solver is generally a substantial quantity of raw data.

However, the factors influencing safety factor decisions are discussed on this page. Finite element analysis ( FEA ) is a theoretical mathematical method of determining stresses in complex geometry.

In this activity, you create a Process Simulation study for the part, refine the mesh settings for the study, choosing a balance between accuracy and speed, then generate a preliminary finite element analysis ( FEA ) mesh. The mesh is a mathematical representation of the part made up of elements and is where the process simulation is solved.

Simulation The Simulation workspace lets you set up studies to test your design using finite element analysis ( FEA ). Simulate how your design performs under various loads and conditions.

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In the real world, a point moves in six different directions—translation in X, Y, and Z, and rotation about X, Y, and Z. In FEA , a node can be limited in the calculated motions for various reasons.

The tutorials demonstrate real-world finite element analysis ( FEA ) situations. Using the provided CAD models, familiarize yourself with the simulation tools and general workflow habits.

The mathematical process behind determining natural frequencies and the corresponding mode shapes through finite element analysis is complex. To make the theory easier to understand, we will consider a very simple linear spring-mass system with one degree of freedom (DOF).

(Optional) To generate a preliminary mesh, in the FEA Mesh group, click . (Optional) To solve the process simulation, click Solve.

Use the drop-down menu at the top or bottom of the active window, depending on the study type, to select a different study or result. Tip: For FEA studies, use the results selector, by the legend, to select a different result.

(Optional) To generate a preliminary mesh, in the FEA Mesh group, click . (Optional) To solve the process simulation, click Solve.

(Optional) To generate a preliminary mesh, in the FEA Mesh group, click . Click Solve.