Our services
Finate Element Simulations
Predicting Performance: FEA simulations reliebly allow engineers to predict how a design will behave under various conditions (e.g., stress, heat, vibration) before it's built, helping to optimize the design for performance and durability.
Design Validation: By simulating real-world scenarios, FEA helps validate the design to ensure it will meet required standards, functionality, and safety requirements.
Reducing Risk: FEA enables engineers to identify potential failure points early in the design process, reducing the risk of costly failures and safety issues during later stages of development or operation.
Cost and Time Efficiency: By testing designs virtually, FEA reduces the need for multiple physical prototypes and tests, saving both time and money in the design phase.
Complex Analysis: FEA can handle complex geometries, materials, and load conditions, which would be challenging to test physically. This flexibility allows engineers to explore a wide range of possibilities.
Optimizing Materials and Structures: FEA helps in selecting the right materials and structural configurations, ensuring the product is both cost-effective and capable of withstanding the required operational conditions.
Innovation and Creativity: With the ability to test unconventional or cutting-edge designs virtually, FEA fosters innovation by enabling the exploration of new ideas that might be too risky or expensive to test physically.
Geometry Clean Up & Meshing
Geometry Clean-Up and Meshing are crucial steps in the Finite Element Analysis (FEA) process, ensuring accurate and efficient simulations.
Geometry Clean-Up:
Geometry clean-up is the process of preparing a model for analysis by fixing any errors or unnecessary details in the design. This includes:
- Removing small features that don't impact the analysis.
- Fixing gaps, overlaps, or other issues in the model.
- Simplifying complex shapes to make the model easier to mesh.
Meshing:
Meshing is the process of breaking the model into smaller pieces (elements) that can be analyzed. These elements are used to calculate how the model will behave under different conditions.
- The mesh can be fine (many small pieces) or coarse (fewer, larger pieces).
- More detailed areas (like sharp corners) may need a finer mesh for accuracy.
Structural calculations and drawings
Structural calculations involve determining the strength, stability, and overall performance of a structure or component under various forces and conditions.
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