ARC Technologies, Inc. Datasheets for Radar Absorbing Materials

Radar absorbing materials and structures are designed to absorb radar waves and convert them to heat. Because these radar waves are not returned, radar absorbing materials (RAM) and radar absorbing structures (RAS) provide a reduced signature for detection.
Radar Absorbing Materials: Learn more

Product Name Notes
ARC Technologies is proud to offer our latest cutting edge technology specically designed for the cable industry. Wave-X Z is an EMI / RF absorbing cable coating designed to serve...
A lightweight core material that is constructed with hexagonal cells. It can tuned to operate at various frequencies over a broad spectrum. The electrical performance can be maximized for insertion...
ARC Technologies manufactures this thin, flexible, resonant-tuned, lightweight foam absorber. By closely controlling the dielectric properties, maximum absorption can be attained at specific frequencies. The ARC-SS series, (also known as...
ARC Technologies manufactures this thin, lightweight, broadband, multi-layer absorber. A cross linked, closed-cell foam gives the absorber excellent resistance to weather and chemicals. The gradient effect from the variation of...
Multilayer (ML) is a family of lightweight, flexible open cell foam absorption material, designed for broadband applications. The ML absorbers function on an impedance matching principle, with each layer loaded...
The LS product is a flexible, low density, high loss, carbon impregnated open cell foam. It is available in a range of thicknesses with various carbon loading. The carbon loading...
The RT series is a group of open-cell, carbon-loaded foam absorbers. Exacting control of the conductive gradient provides outstanding broadband performance. RT's open cell structure is an excellent conduit for...
Wave-X Heat - another EMI absorber innovation from ARC Technologies. Wave-X Heat is a heat-shrinkable tube absorber. It’s designed to integrate seamlessly with your wire and cable assemblies, neatly sealing...