Resource Library

Gore's innovative battery insulation material helps prevent thermal runaway in BESS modules, outperforming thicker alternatives and supporting higher energy density. Easy to install and non-particulating, it resists compression, ensuring consistent thermal protection throughout the battery's lifetime. (NOTE: Not a commercially available product. Contact Gore for sample information.)

Protect your battery modules, like those used in BESS installation, from moisture damage and contamination. Learn how GORE® Protective Vents can prevent ingress and safeguard against early component failure. Presented at the International Battery Seminar & Exhibit March 2025.

Multiple testing processes ensure the quality and reliability of Adhesive vents: membrane tests for air flow and water entry pressure, lot testing of finished product dimensions and adhesive bond, and a manual, visual inspection of every part.

To have a positive effect on pressure equalization and condensation reduction, we recommend you to position GORE® Vents as described in the available document.

A Gore Automotive Application Engineer highlights the power of personal relationships in driving innovation. See how effective collaboration, combined with technical expertise, solved recent customer challenges such as thermal management in EV power inverters.

A Gore Automotive Product Specialist shares how the company is advancing and applying its core expertise — materials science and membrane technology — to help OEMs and Tier suppliers overcome new challenges in Electrification applications.

During the manufacturing process, therapeutic antibodies are exposed to a range of hydrodynamic forces and material contact surfaces that can potentially impact protein stability and propensity for aggregation. These forces can vary as fluid flow rates and component design elements scale alongside batch size.

GORE® Thermal Insulation has unique properties of low thickness (< 300 μm) with conductivity less than air (< 0.02 W/(m•K) ) and therefore presents challenges in characterization. A test methodology incorporating a modified heat flow method, ex-situ thickness method, and two thickness conductivity calculation is used to provide reliable and accurate thermal conductivity data. Conductivity results show the distribution of data falls below the conductivity specification of 0.02 W/(m•K).

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Rainer Enggruber's presentation focuses on the development priorities for proton exchange membrane (PEM) water electrolysis (WE) systems to deliver a lower levelized cost of hydrogen (LCOH) to meet global clean energy demands in a net-zero economy.

Discover how rapid cycle Protein A membrane chromatography can boost your antibody purification process productivity by trying the new GORE® Productivity Calculator.

A few quick inputs and you will see the difference high flow, high binding membranes can make. Please fill out form below to request the document.