Fingerstock Gaskets
Shielding strips are required by a wide range of industries for a variety of applications. When you need standard EMI shielding strips, think of Tech Etch.
Our RoHS-compliant shielding strips are available in lengths of 16” to 24”, in continuous coils of up to 35 feet, as individual fingers, or cut to customized full-finger lengths.
Our uncompressed standard finger stocks range from .03” to .44”. These can fill gaps that are as small as .01”. Most of our products are available in two thicknesses to meet your specific requirements. Whether you need standard or TF gaskets, you can count on us for top-quality products.
Benefits
Beryllium Copper (BeCu) is a high performance metal which can be fabricated into a wide variety of components. Its mechanical and electrical properties make it the ideal material for EMI/RFI shielding products.
• High electrical and RF conductivity
• Superior tensile strength & attenuation
• RoHS compliant & recyclable
• Excellent corrosion resistance
Beryllium Copper – the ideal shielding material
• Excellent plating compatibility
• Maximum spring properties
• Moisture and UV resistant
• Superior endurance over other alloys
Product Overview
Beryllium Copper Emt Shielding Products
Finger Stock
“D” Connector Gaskets
Contact Rings
Stainless Steel Emi Shielding Products
Finger Stock
“D” Connector Gaskets
Expansion Slot
Custom Designed Emi Shielding
Tech Etch supplies many custom designed shielding components for special applications from high volume requirements using progressive dies, to prototype and small quantities utilizing photoetch fabrication. Call for information.
Electromagnetic Compatibility
EMI/RFI Shielding Products are designed to either keep out or keep in electromagnetic interference. Shielding reflects and absorbs incident radiation. The higher the attenuation of the shielding, the more effective it is at keeping in or out the undesired electromagnetic interference.
Electrochemical Compatibility
To avoid galvanic action between contacting metals refer to this chart. Materials in adjacent groups may be safely used together. Choosing materials from within a single group in the table will provide the least corrosion due to galvanic action when the materials are in contact for an extended period of time with appropriate protective finish.