✨ About The Role
- The Aging Modelling Engineer will develop physics-based mathematical models for Li-ion battery cell degradation.
- Responsibilities include implementing models in various tools and performing life estimation studies under different load conditions.
- The role involves developing tools for the physicochemical characterization of degradation mechanisms and constructing a material database.
- Data-driven models for cell degradation and life estimation will also be developed and implemented.
- The engineer will conduct experiments in collaboration with battery scientists and test engineers for aging analysis and model validation.
- Regular reviews of state-of-the-art concepts and methodologies will be part of the job to ensure best practices in mathematical modeling.
- The position requires timely delivery of case-study results according to product development timelines.
- The engineer will prepare technical notes, standards, and work instructions on tools and methods used in studies.
⚡ Requirements
- A PhD in Chemical Engineering, Chemistry, Physics, Mechanical Engineering, or Electrical Engineering is essential for this role.
- Specialized knowledge in electrochemical engineering and Li-ion batteries, particularly their degradation mechanisms, is crucial.
- Candidates should have over three years of experience in physics-based modeling of Li-ion battery degradation.
- Proficiency in scientific coding languages such as Matlab or Python is required.
- Experience with simulation tools like 3D Experience, ANSYS, and COMSOL is necessary for success in this position.
- A strong background in data analysis and mathematical modeling will be beneficial.
- Hands-on lab experience, including cell assembly and testing, is an important aspect of the role.
- The ability to work collaboratively with battery scientists and test engineers is essential for conducting aging analysis and model validation.