Chassis CAE Engineer

About The Position

Requirements

• Bachelor’s Degree in Mechanical Engineering, Electrical Engineering or a related field of study
• 5+ years of Body Finite Element Structural CAE Simulations using ABAQUS and NASTRAN for Chassis.
• 2+ years of experience leading engineers through automotive production work.
• Expertise in Technical report preparation experience.
• Ability to work independently with minimum guidelines.
• Strong oral and verbal communication skills.
• Knowledge of automotive suspension system and vehicle dynamics.

Nice To Haves

• Preferred: PhD/MSc in Mechanical Engineering or a related field of study
• Demonstrated history of patent creation and academic publications will be useful.

Responsibilities

• Perform chassis and suspension structural and fatigue FEA using ABAQUS and NASTRAN using any of the durability, static, dynamic, nonlinear, and fatigue analysis techniques.
• Analyze control arms, subframes, frames, suspension links, knuckles, crossmembers, bushings, and related systems under static, dynamic, and durability loading.
• Correlate simulation results with physical test data to improve model accuracy and prediction robustness.
• Generate technical documentation, reports, and recommendations to guide design decisions.
• Support Body structure, and NVH-related CAE activities.
• Participate in engineering reviews, presenting analysis results and design recommendations.
• Support R&D initiatives and innovation projects improving chassis performance, refinement, and robustness.
• Capture welds, joints, spot welds, hard-points, and boundary conditions according to established chassis simulation guidelines.
• Guide physical test planning, develop test matrices, and correlate CAE predictions with test results using proving ground Road Load Data Acquisition and other relevant test inputs.
• Perform mechanical joint/fasteners strength simulations and evaluate load transfer and failure risks.
• Use advanced fatigue prediction tools (e.g., nCode, FeSafe) for seam weld, spot welds and base metal fatigue evaluation using proper load histories.
• Apply modal transient fatigue methods to improve fatigue life prediction under dynamic loading conditions.
• Demonstrate strong understanding of solid mechanics and ensure accurate correlation between CAE simulations and physical tests.
• Collaborate with design, materials, supplier, attributes, and MBD teams across domestic and overseas groups to support robust design development.
• Lead multiple CAE-intensive projects simultaneously, delivering high-quality results that drive design decisions.
• Participate in weekly CAE meetings to coordinate model development and project progress.
• Create technical reports, documentation, and presentations per established guidelines and present results to engineering and leadership teams.
• Develop new analytical methods and virtual validation procedures to enhance prediction accuracy and reduce physical testing.
• Conduct data-driven root-cause analysis of field or test failures and develop validated countermeasures.
• Maintain and improve best practices, design standards, test procedures, and technical specifications.
• Ability to create and utilize programming tools such as MATLAB and Python.
• Travel up to 5% domestic and international

Benefits

• Zero dollar employee premiums on Medical, Dental, and Vision for you and your family
• 100% employer-paid disability and life insurance
• Generous paid time off including vacation, sick and abundant holidays
• A global environment that fosters diversity
• Competitive salaries
• Retirement savings and planning benefits
• Access to health savings accounts and flexible spending accounts