SIMULIAWORKS Roles:
- Structural Designer
- Structural Engineer
- Structural Performance Engineer
- Structural Mechanics Engineer
- Durability Performance Engineer
- Durability and Mechanics Engineer
Structural Performance Engineer (SFO-OC)
Assess the structural performance of products during the Design process and intuitively guide design decisions.
Structural Performance Engineer enables product engineers to conduct structural linear and nonlinear static, frequency, buckling, modal dynamic response, and structural thermal simulation of parts and assemblies on the cloud-based 3DEXPERIENCE® platform.
Structural Performance Engineer boosts innovation in product engineering and foster collaboration through fast, realistic and accurate simulation with Abaqus technology, leader in the structural analysis industry.
Benefits
- Provide Product Engineers powerful and intuitive tools needed to perform sophisticated structural simulations during the design process
- Experience efficient what if scenarios through seamless associativity/integration with geometry
- Delivers unique engineering workflow with an access to robust simulation technology within an intuitive interface
- Offers multistep structural scenarios for product performance and quality testing during the product design process
- Offers local and cloud compute with embedded compute up to 8 cores, removing hardware barriers for all
- Accelerate structural performance simulation with unique automated model creation for large assemblies
- Enables high performance results visualization, particularly for very large models
Highlights
- Linear and Nonlinear Static, Frequency, Buckling, Thermal and Modal Dynamic analysis types
- Unique and Powerful contact (surface pairs, detection, general contact and initialization) definition.
- Advanced and wide nonlinear material models including engineering plasticity for metals and hyperelasticity for rubber
- High quality meshing including rule-based meshing
- Automated model creation for large assemblies
- Multi-level Assembly of FEM representations for large configured models
- Analysis of sequential loading events in a single simulation (multi-step analysis)