At Chambers Gasket, we have met the growing demands of global OEM markets with over 75 years of gasketing experience and continued leadership. Our organization offers a range of custom cork gaskets made by utilizing precision die cut and water jet cutting services. We offer a variety of pure cork and combination cork and rubber materials and can fabricate them to any 2D shape. Cork and cork hybrids are prized for their ability to decrease the amount of flow or creep that can occur in compounds made with rubber alone and create a better distribution of load under compression. Cork is also easy to machine, offers high chemical resistance, reduces levels of transmitted vibration, and features good recovery.

Our cork comes in blocks, and our precision equipment can produce gaskets from 1/32 in to 1 in thick, whether for a few gaskets or millions, all with an average lead time of 2 weeks. We will also work with customer-supplied manufacturing materials to produce any scientifically possible gasket. These qualities make our gaskets ideal for components used in the petrol and lubricating oil industries.

To learn more about our ISO 9001: 2008 certified facility and our custom cork gaskets see the table below or contact us.
Unit of Measure
Items
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Friction Cork

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Friction Cork
Description N/A 711-BNF Friction Cork .031 in Thick N/A P-46 Friction Cork .125 in Thick
MC Item Number N/A MC 19-0888 N/A MC 02-0068
Capabilities Applied/Processes N/A Die Cutting Water Jet Cutting
Thickness
(inches decimal)
N/A 0.031 in N/A 0.125 in
Thickness
(inches fraction)
N/A 1/32 in N/A 1/8 in
Thickness Range N/A 1/32 to 1 Inch
Lead Times N/A 2 weeks
Applications N/A Applications for gas meters, gaskets for heaters and many other industrial applications
Production Volume N/A 1 to 1,000,000
Additional Facts N/A Customizable to all 2D Shapes
  • Cork is a Relatively Cheap Material that is Easily Cut for Mass Production.
  • High Chemical Resistance
  • Reduces Levels of Transmitted Vibration
  • Anti-Slip and Impact-Resistant
  • High Resistance to Compressive Loads over Long Durations