Static Structural Analysis: Verifying Automotive Brake Rotor Reliability
The client needed to model their theoretical brake rotor design and verify its performance under maximum load conditions. This project utilized SolidWorks CAD modeling and ANSYS Static Structural analysis to check critical stress, strain, and Factor of Safety (FOS) metrics, providing a definitive validation report for the design’s structural reliability.
How This Project Took Shape Step by Step
CAD Modeling & Import
Created the high-fidelity brake rotor CAD geometry in SolidWorks, ensuring precise slots and ventilation structures. The model was then imported cleanly into ANSYS Mechanical, performing necessary geometry cleanup to prepare the component for high-fidelity finite element meshing.
Meshing & Element Optimization
Generated a refined finite element mesh, optimizing element size and density specifically in the critical high-stress areas (e.g., ventilation holes) to ensure the accuracy of the static structural analysis results without unnecessary computational overhead (S_R3).
Boundary Conditions Setup
Applied realistic operational constraints, including fixed supports at the hub connection points and the specified maximum braking torque/pressure loads to simulate the worst-case scenario. This accurately established the virtual testing environment for structural stress analysis (S_R4).
Solver Execution & Validation
Executed the ANSYS Static Structural solver to determine the resultant Von Mises stress, strain, and displacement across the entire rotor body. This phase confirmed the structural response matched theoretical predictions under the extreme braking load.
Post-Processing & Safety Factor
Extracted and post-processed the critical results, calculating the Factor of Safety (FOS) and identifying the maximum displacement. This step verified the design’s margin of error and structural reliability against material yield strength, ensuring compliance (S_R4).
Final Deliverable & Insight
Delivered the complete simulation project files, a formal validation report, and clear, actionable insights into the brake rotor’s structural reliability, confirming the suitability of the client’s theoretical design.
What the Client Shared About This Project
Every project is complete once the results match what the client envisioned. Here’s their perspective on the process, communication, and final outcome.
I needed hard data to back up my design thesis. Touseef delivered more than just a simulation; I received a full structural analysis report checking displacement and FOS. The process was fast, and the ANSYS data was crystal clear. It allowed me to validate my theoretical model perfectly.
Kwame Mensah
Automotive Engineering Student
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