Thermal Conductive Absorbing Material
Can absorb the electromagnetic wave energy projected onto its surface of a class of materials, this material can be used in electronic equipment to absorb the leakage of electromagnetic radiation, can achieve the purpose of eliminating electromagnetic interference.
Composite by the matrix material and loss medium.
Through the small polar molecules, absorption and consumption of microblogging energy.
According to the electromagnetic wave in the medium from the low magnetic guide to the high permeability direction of propagation of the law, the use of high permeability ferrite to guide the electromagnetic wave.
Through the resonance, a large number of electromagnetic wave absorption of radiant energy, and then through the coupling of the electromagnetic wave energy into thermal energy.
Wave-absorbing materials in the range of 10MHz ~ 6GHz has a good absorption characteristics, to avoid the secondary reflection% caused by electromagnetic interference or leakage.
-Application frequency: 10MHz~6GHz, customised deployment according to customer application scenarios.
Available specifications: Sheet, slice, punching (can be die-cut into various sizes and shapes according to customer’s specifications).
-Thickness: Thickness range: 0.5~5mm Regular thickness: 0.5mm, 0.75mm, 1.0mm, 2.0mm, etc.
-Hardness: Shore C 25~45, special hardness can be customised according to requirements.
Antennas, communication base stations, mobile phones and other communication products; laptop computers, oscilloscopes, automotive radar and other electronic equipment.
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ShenZhen Great Technoloy Co., Ltd. was founded in 2005, specializing in the research and development, production and sales of silicone and rubber products.
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Full-band Absorbing Material
Such products both thermal conductivity (1 ~ 6W) and electromagnetic wave (1GHz ~ 18GHz) absorption function, thermal conductivity wave-absorbing sheet using silicone, neoprene, etc. as the substrate, can absorb microwave, electromagnetic energy and reflection and scattering of small materials.