Tuned frequency absorbing materialIt is a flexible and thin magnetic load rubber material that exhibits extremely high absorption performance in a specific frequency range. This material can provide up to 20dB attenuation during the absorption of electromagnetic waves.
Tunable frequency absorbing materials can be widely used in the fields of electromagnetic wave absorption in communication, radar, and radio frequency bands. Its characteristic is to display the maximum reflection loss at discrete frequencies. This means that the material can absorb and consume the energy of electromagnetic waves within a specific frequency range, reducing the reflection of electromagnetic waves.
This material has outstanding absorption characteristics and can provide narrowband absorption in the frequency range of 1 to 40 GHz. This frequency range covers many key application areas, including microwave communication, RF signal processing, medical diagnosis, and security testing. The application potential of frequency tunable absorbing materials is enormous.
The high absorption performance of tuned frequency absorbing materials is attributed to their special magnetic loaded rubber structure. This structure enables the material to exhibit resonance effects at specific frequencies, thereby absorbing energy from electromagnetic waves at that frequency. The flexibility and thinness of magnetic loaded rubber enable the material to easily adapt to the application requirements of different shapes and surfaces.
By adjusting the composition and structure of magnetic loaded rubber, tuning effects can be achieved in different frequency ranges. This means that tuned frequency absorbing materials can be customized according to specific application requirements to provide optimal absorbing performance.
in general,
Tuned frequency absorbing materialIt is a material with excellent absorbing properties. It can provide high reflection loss at discrete frequencies, making it widely applicable in electromagnetic wave absorption applications in communication, radar, and radio frequency bands. By adjusting its composition and structure, tuning effects can be achieved in different frequency ranges to meet the needs of different application fields. The development of this material will bring new innovations and breakthroughs to electromagnetic wave absorption technology.
