Discover how the 3DEXPERIENCE platform enables optimal battery performance, providing insight into the complex interplay of multiple physical phenomena occurring within battery cells.
The pursuit of high-performance batteries in electric vehicles (EVs) has increased the demand for more efficient, safer and reliable energy storage solutions. Watch our webinar to learn how the 3DEXPERIENCE® platform empowering optimal battery performance and provides insight into the complex interplay of multiple physical phenomena within battery cells.
In this webinar, we demonstrate how to create a detailed parametric 3D jellyroll geometry with realistic offsets and transitions using the Layered Product Design (LAY) application. This jellyroll is tightly associated with the Finite Element (FE) mesh and is used for conducting design studies on electrochemical and mechanical behavior. By utilizing a fully coupled multi-scale, multi-physics model, we can evaluate the variation in concentration, potential, and temperature on the 3DEXPERIENCE® platform.
We will also explore how cell designers can gain insights into crucial safety aspects by conducting highly complex and non-linear simulations, such as crashes and internal short circuits, which can lead to thermal runaway.
These multi-scale, multi-physics simulations, facilitated by the unified modeling and simulation—an approach known as MODSIM, will significantly accelerate the battery cell development process.
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