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Performing Submodeling in Ansys Mechanical — Lesson 6
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Submodeling, as the name suggests, is the modeling of a portion of the larger (global) model to capture the effects of refined mesh in a smaller model. This is done to avoid having the whole larger assembly meshed with fine elements.
We use coarse mesh in the global model, as the local features of the submodel do not have any impact on the overall response of the system. We then define a refined submodel with displacement (and temperature) results applied to the submodel. The most common utility of this approach is to refine a critical region or region of interest without solving for the whole model. Another important aspect is to study small changes like adding a fillet. With local design changes comes the parametrization of the design which is much easier in the smaller submodel. Apart from this, we can model localized non-linearity that might have not been captured in the global model.
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0:00 - Intro
1:20 – Introduction to Submodeling
2:37 – St. Venant’s Principle approach for Submodeling
3:01 – Advantages of the Submodeling Approach
6:24 – Creating a Local Coordinate System
6:59 – Defining a Remote Displacement Boundary Condition
8:45 – Changing the Upper and Lower Limits of the Legend Results
10:20 – Creating a Connection between Solution and Setup Model Cells
10:47 – Defining Mesh Size for a Body
11:33 – Creating a Named Selection
11:50 – Importing Cut Boundary Constraint into the analysis
12:35 – Turning On the Display Source Points
13:50 – Advantages of Submodeling
We use coarse mesh in the global model, as the local features of the submodel do not have any impact on the overall response of the system. We then define a refined submodel with displacement (and temperature) results applied to the submodel. The most common utility of this approach is to refine a critical region or region of interest without solving for the whole model. Another important aspect is to study small changes like adding a fillet. With local design changes comes the parametrization of the design which is much easier in the smaller submodel. Apart from this, we can model localized non-linearity that might have not been captured in the global model.
// INTERESTED IN MORE?
Visit Ansys Innovation Courses for free courses, including videos, handouts, simulation examples with starting files, homework problems and quizzes.
// DOWNLOAD FREE ANSYS SOFTWARE
Ansys offers free student product downloads for homework, capstone projects, student competitions, online learning and more!
// QUESTIONS ABOUT THIS VIDEO OR USING ANSYS?
Get help from Ansys experts and peers through the Ansys Learning Forum. Search for answers to common questions, browse discussion categories or ask your own question.
// STAY IN THE LOOP
Follow our Ansys Academic LinkedIn showcase page for updates on learning resources, events, job opportunities, cutting-edge simulation content and more!
0:00 - Intro
1:20 – Introduction to Submodeling
2:37 – St. Venant’s Principle approach for Submodeling
3:01 – Advantages of the Submodeling Approach
6:24 – Creating a Local Coordinate System
6:59 – Defining a Remote Displacement Boundary Condition
8:45 – Changing the Upper and Lower Limits of the Legend Results
10:20 – Creating a Connection between Solution and Setup Model Cells
10:47 – Defining Mesh Size for a Body
11:33 – Creating a Named Selection
11:50 – Importing Cut Boundary Constraint into the analysis
12:35 – Turning On the Display Source Points
13:50 – Advantages of Submodeling
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