Applying your expertise in Computer Aided Engineering (CAE) modelling to create full vehicle runnable Crash, Durability, and NVH Finite Element (FE) models
Utilising Multi-Disciplinary Optimisation (MDO) techniques employing Design of Experiments (DOE) and Non-DOE methods
Executing advanced optimisation techniques, including Topology, Topometry, Sizing, and Shape optimisations
Developing morphing methods and crafting quick concept morphed models
Engaging in substructure modelling and applying contemporary methods such as Artificial Intelligence and Machine Learning
Requirements
3 to 5 years of relevant experience in CAE
A strong foundation in Finite Element Analysis (FEA) and Mechanical Engineering principles
Familiarity with several analysis types, including Non-linear, Dynamic, Explicit FE-Analysis, Modal Analysis, and Static Analysis
Experience with CAE tools such as Hypermesh, modeFrontier, Genesis, Optistruct, Nastran, LMS Virtual Lab, CDtire, Primer, Abaqus, and Meshworks
A commitment to professional development, demonstrating a strong desire to advance in automotive engineering knowledge and application.