Details page | Paper / Information search system

Search

Search help

Summary & Details

Mechanical Properties of Elastomeric Foam-Based Compression Pads for Battery Pack Applications

Delivery: Provide download link

Format: PDF

Price: Non-members (tax incl.)：￥8,250 Members (tax incl.)：￥6,600

Paper/Info type: SAE Paper

No.2026-01-0247

Pages: 1-12(Total 12 p)

Date of publication: Apr 2026

Publisher: SAE International

Language: English

Event: WCX™ 2026

Detailed Information

Author(E)	1) Weilin Deng, 2) Subhashini Gunashekar
Affiliation(E)	1) Saint-Gobain Research North America, 2) Saint-Gobain Tape Solutions
Abstract(E)	With the increasing adoption of electric vehicles (EVs) worldwide, ensuring the long-term reliability and performance of the battery systems has become a paramount engineering challenge. Lithium-ion cells exhibit dimensional changes throughout their operational life, characterized by reversible “breathing”—expansion and contraction during charge and discharge cycles—and irreversible swelling due to aging. Compression pads are critical components for ensuring the lifetime performance of battery packs. The primary function of a compression pad is to act as a compliant cushion between cells. It accommodates these volumetric fluctuations by exerting consistent and optimized pressure. By absorbing the stress from cell expansion and maintaining structural integrity within the module, compression pads mitigate degradation mechanisms and ultimately maximize the durability and safety of the battery system over thousands of cycles. This paper highlights the importance of tailoring elastomeric-foam-based compression pads to meet the unique challenges of various battery formats and chemistries. We first characterize the fundamental mechanical properties of these pads under a range of conditions, such as different compression speeds and temperatures, that are directly relevant to realistic battery applications. Additionally, we demonstrate the pad’s long-term mechanical resilience by evaluating their performance over thousands of charge-discharge cycles at different operating temperatures, confirming their ability to maintain consistent pressure over a long time. Finally, we present advanced modeling and simulation approaches for compression pads. These predictive models are crucial tools to accurately forecast mechanical behavior and explore the design space virtually, accelerating the development of optimized solutions of compression pad for battery pack applications.

About search

How to use the search box

You can enter up to 5 search conditions. The number of search boxes can be increased or decreased with the "+" and "-" buttons on the right.

If you enter multiple words separated by spaces in one search box, the data that "contains all" of the entered words will be searched (AND search).

Example) X (space) Y → "X and Y (including)"

How to use "AND" and "OR" pull-down

If "AND" is specified, the "contains both" data of the phrase entered in the previous and next search boxes will be searched. If you specify "OR", the data that "contains" any of the words entered in the search boxes before and after is searched.

Example) X AND Y → "X and Y (including)" X OR Z → "X or Z (including)"

If AND and OR searches are mixed, OR search has priority.

Example) X AND Y OR Z → X AND (Y OR Z)

If AND search and multiple OR search are mixed, OR search has priority.

Example) W AND X OR Y OR Z → W AND (X OR Y OR Z)

How to use the search filters

Use the "search filters" when you want to narrow down the search results, such as when there are too many search results. If you check each item, the search results will be narrowed down to only the data that includes that item.

The number in "()" after each item is the number of data that includes that item.

Search tips

When searching by author name, enter the first and last name separated by a space, such as "Taro Jidosha".