Exceptionally resistant to creep, cold flow and aggressive media, this 100% expanded PTFE gasket sheet reliably seals steel piping and equipment.
Reliably seal a broad range of flange materials with this low stress-to-seal, dimensionally stable and chemically resistant 100% expanded PTFE pipe gasket.
Easily and reliably seal glass-lined steel to contain aggressive media, protect equipment, and reduce emissions.
Meet dioxin emission requirements without the burden of costly new equipment. GORE® REMEDIA® Catalytic Filter Bags remove dioxins and furans (< 0.1ng/m3), provide dust control and work with existing baghouses in a variety of applications.
GORE® Cooling Filters provide years of maintenance-free life while enabling the cooling of sensitive electronics with ambient air without the risk of corrosion from airborne contaminants.
Upgrading to GORE Turbine Filters with E12 hydrophobic HEPA technology has provided enormous value to rotating equipment users.
Reliable and consistent operation of non-implantable devices and diagnostics is critical to maintain patient comfort, safety and ensure accurate diagnosis. Our Microfiltration Media solutions are designed to enable degassing, venting, and pressure equalization while containing and managing liquids. The superior quality of our materials allows for high-yield production of non-implantable devices and diagnostic cartridges.
Turn up the performance, turn down the heat! GORE® Thermal Insulation is an advanced thermal management solution with a conductivity lower than air. This innovation enhances heat spreading and therefore user experience.
These versatile single-link cables are adequately crafted for the digital component of DVI systems and fit effortlessly into standard harness designs. Compact and robust, they meet stringent aviation requirements and reliably support high-resolution aircraft displays in demanding radar environments.
Designed to improve productivity in protein A affinity purification of monoclonal antibodies, GORE Protein Capture Devices provide high binding capacity at short residence time.