Define the Geometry:
1. Start by defining the geometry of your model. ALEXMY supports various geometric shapes, including points, lines, surfaces, and volumes. You can use the built-in commands or create your own shape definitions.
Assign Material Properties:
2. Once the geometry is defined, you can assign material properties to the different parts of your model. This includes properties such as density, Young's modulus, Poisson's ratio, and thermal conductivity.
Define Boundary Conditions:
3. Next, you need to define the boundary conditions for your model. This includes specifying the displacements, forces, heat fluxes, or other boundary conditions that will be applied to the model during analysis.
Define Analysis Parameters:
4. Specify the analysis parameters such as the solver type (Direct or Iterative), accuracy criteria, solver parameters, and any other relevant settings for the analysis type you want to perform.
Run the Analysis:
5. Once all the necessary input data is defined, you can run the analysis. ALEXMY provides various analysis capabilities such as linear static, nonlinear static, dynamic, thermal, and electromagnetic analyses.
Post-Processing:
6. After the analysis is complete, you can view and analyze the results using ALEXMY's built-in post-processing capabilities. You can visualize the deformed shape, stresses, strains, temperatures, and other relevant results.
Output and Reports:
7. Finally, you can export the analysis results in various formats for documentation or further processing. ALEXMY allows you to generate text reports, graphical plots, and animations of the results.
Remember that the specific steps and commands may vary depending on the specific analysis you want to perform and the complexity of your model. It is recommended to refer to the ALEXMY user manual and tutorials for more detailed guidance on creating models and performing analyses.