Optimizing EV Battery Assembly Through Advanced Flow Simulation

As EV battery designs become more compact and complex, controlling how materials behave under compression is becoming critical to performance, safety, and manufacturing efficiency.

This whitepaper from Henkel explores how advanced squeeze flow modelling and validated simulation techniques enable manufacturers to better predict the behaviour of thermal interface materials, adhesives and sealants during assembly.

By improving accuracy earlier in the process, teams can optimise compression forces, enhance structural and thermal performance, and reduce the need for costly physical prototyping.

Download the whitepaper to understand how simulation-led approaches are helping manufacturers build more reliable, scalable EV battery systems.

Why download this whitepaper?

• Reduce manufacturing risk by understanding how to optimize compression forces and ensure reliable bond line control.
• Accelerate development cycles through simulation driven material characterization instead of costly physical prototyping.
• Increase production efficiency with validated material models that reflect real world EV battery assembly conditions.
• Improve thermal and structural performance by optimizing material application strategies using CFD insights.
• Discover Henkel’s proven workflow for integrating material testing, rheology, simulation, and robotic application into a cohesive process.
• Stay competitive in a fast evolving EV battery landscape with tools that enable rapid design adaptation and scalable manufacturing optimization.