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LORD Corporation

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On Demand Webinar: The Right Amount of Force: Reworkability of Gap Fillers in EV Battery Packs

The fast-growing electric vehicle market demands robust and efficient thermal management solutions for battery packs, such as gap fillers and thermal pads. Gap fillers outperform thermal pads to achieve lower thermal impedance, as the gap fillers conform to surface roughness before curing. This allows gap fillers to adhere well to surfaces and provide mechanical support during normal operation. However, this also poses a challenge during repair, removal and re-manufacturing. Currently, there is no set standard for measuring vertical pull-off, and hence, there is a lack of knowledge on what level of pull-off force is needed to service these battery packs.

The Right Amount of Force: Reworkability of Gap Fillers in EV Battery Packs

The fast-growing electric vehicle market demands robust and efficient thermal management solutions for battery packs, such as gap fillers and thermal pads. Gap fillers outperform thermal pads to achieve lower thermal impedance, as the gap fillers conform to surface roughness before curing. This allows gap fillers to adhere well to surfaces and provide mechanical support during normal operation. However, this also poses a challenge during repair, removal and re-manufacturing.

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Presenter: Anurodh Tripathi, PhD

Senior Scientist

Anurodh Tripathi is Senior Scientist in the advanced chemical technology department at Parker LORD working on the silicone based thermal management portfolio. Anurodh is currently focused on next generation silicone materials for Parker LORD’s customers. Prior to joining LORD, he completed his PhD in Chemical Engineering from North Carolina State University, USA. His research in graduate school focused on applying fundamental concepts of polymer science to develop processes and materials from renewable biopolymers to address key environmental challenges. 

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