Resource Library

Describes the performance options (High Airflow and High Temperature) available in the Weldable Series for automotive electrical/electronic modules, (e.g. control units, sensors, actuators or motors). Includes performance characteristics as well as design and dimensions.

The guidelines are based on Gore’s best practices in eWEP (extended Water Entry Pressure) testing for GORE® Portable Electronic Vents. Please follow the guidelines to conduct the eWEP testing to minimize water leakage failures caused by test issues.

The current methods used during circuit board assembly to protect MEMS microphones can cause performance degradation, significant yield losses and higher manufacturing costs. With GORE MEMS Protective Vent Style 100, industry-leading protection and acoustic performance can be seamlessly installed during circuit board assembly.

Partnering for Innovation: Gore and Infineon Take Gas Detection Sensors to a New Level

Learn how Gore technology added the final touch to fully unleash the potential of Infineon’s cutting-edge photoacoustic spectroscopy (PAS) for CO2 detection. Discover how joined efforts achieved a sensor response time nearly cut in half, paving the way for a new range of applications.

Describes the performance options (Standard, High Temperature, High Airflow, and Compact) available in the Snap-Fit Series for automotive electronic modules (control units, sensors, actuators and motors). Includes performance characteristics, installation recommendations, and testing methods/criteria.

Commercializing fuel cells in heavy-duty vehicles (HDVs) presents challenges like extended lifetimes, higher-temperature operation, and significantly increased power output, essential for displacing diesel. Simon Cleghorn discusses the compelling aspects of PEM fuel cells as an alternative to help solve these challenges, and potentially lower the Total Cost of Ownership (TCO).

The heavy-duty sector, representing 10% of vehicles yet contributing over 25% of carbon emissions, requires high power density and extended range capabilities. This article emphasizes the crucial role of advanced PEM technology in attaining sustainable and efficient fuel cell solutions.

Learn how Gore venting technology empowered the ODM of a well-known Chinese technology manufacturer to secure their role in a growing market. Discover how our in-depth knowledge helped to successfully develop their first waterproof smartwatch, all without compromising acoustic quality.

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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Gore's expanded polymer membrane technology, known for its durability and performance, was a breakthrough discovery by Bob Gore in 1969. Since then, Gore's continuous innovation has evolved into many innovative membrane technologies used in numerous industries. Discover how our advanced materials engineering expertise is helping to improve the lives of people around the world.