Durability CAE Engineer
About The Position
Virtual Sign-off & Validation: Lead the structural durability and fatigue sign-off for critical systems like body structures, frames, and electric vehicle (EV) battery trays before physical prototype builds. Advanced Simulation Leadership: Oversee complex, full-vehicle explicit and implicit dynamic simulations (e.g., ground strikes, curb strikes, and cyclic loading) to assess structural resilience. Model Correlation: Drive the alignment between virtual simulation models and physical test results from proving grounds or lab rigs to ensure predictive accuracy. Root Cause Analysis: Use physics-based principles and simulation data to diagnose and resolve durability failures from early development through production. Technical Mentorship: Act as a "subject matter expert" (SME), coaching junior engineers and developing new CAE methodologies. Cross-functional Collaboration: Engage with design, manufacturing, and "Road Load" teams to develop design load targets and ensure lessons learned are integrated into future vehicle architectures.
Requirements
- Mastery of CAE tools such as Abaqus, Nastran and fatigue solvers like nCode DesignLife or FEMFAT.
- Deep understanding of fatigue life prediction, plasticity, ductile failure, and metal joining methods (e.g., welding in HSLA steels or cast materials).
- Proficiency in pre-processors ANSA or HyperMesh and Post-processors HyperView or Meta/Post. Familiarity in scripting languages like Python or MATLAB for automation would be a plus.
- Excellent communication skills, both written and verbal, with a proven ability to translate complex data into clear technical and executive presentations for leadership decision-making
- Requires 10+ years of experience in structural components and CAE correlation for specialist roles.
- Proficiency in applying Reduced Order Modeling (ROM) and Neural Networks to accelerate traditional CAE simulations.
Responsibilities
- Lead the structural durability and fatigue sign-off for critical systems.
- Oversee complex, full-vehicle explicit and implicit dynamic simulations.
- Drive the alignment between virtual simulation models and physical test results.
- Use physics-based principles and simulation data to diagnose and resolve durability failures.
- Act as a "subject matter expert" (SME), coaching junior engineers and developing new CAE methodologies.
- Engage with design, manufacturing, and "Road Load" teams to develop design load targets and ensure lessons learned are integrated into future vehicle architectures.
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What This Job Offers
Job Type
Full-time
Career Level
Mid Level
Education Level
No Education Listed
