Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.
Thermal conductive silicone absorbing patch
Absorbing materials have good absorption characteristics in the range of 10MHz~6GHz, which can avoid electromagnetic interference or leakage caused by secondary reflection. The main types of products are absorption patches, which can also be...
Excellent broadband silicone wave absorbing patchs
Absorbing materials have good absorption characteristics in the range of 10MHz~6GHz, which can avoid electromagnetic interference or leakage caused by secondary reflection. The main types of products are absorption patches, which can also be...
Excellent conventional silicone absorbing patch
Silicone absorbing patch is a material used to eliminate electromagnetic interference. It is usually made of silicone material and has good absorption and adhesion properties.
EMAS-RSD3-B3 Near Field Shielding Material
Min. Order:1 Piece/Pieces
Product Details product description: The company’s EMAS-RS series products are soft magnetic materials made of micron-level flake iron-based alloy powder and silica gel mixed, dispersed, and pressed. It is halogen-free and environmentally...
Excellent broadband silicone wave absorbing patch
The absorbing material is mainly a shielding film based on ferrite as the substrate. Its main function is to absorb and couple electromagnetic waves to prevent the superposition of electric waves, eliminate excess electric waves in intelligent...
Broadband silicone electromagnetic absorbing patch
Our silicone absorbing material products are soft magnetic materials made by mixing micron sized flake iron-based alloy powder with silicone, dispersing and then high-temperature curing. They comply with international ROHS standards, have excellent...
Conventional iron based alloy absorbing patch
The manufacturing process of absorbing patches is complex, requiring precise control of material composition, structure, and thickness parameters to achieve absorption of electromagnetic waves within a specific frequency range. The performance of...
Flexible absorbing tape electromagnetic absorbing patch
The use of electromagnetic wave patches can effectively reduce the impact of electromagnetic radiation on the human body, especially for people who have long-term contact with electronic devices. However, electromagnetic wave patches cannot...
Excellent Conventional iron based alloy absorbing patch
conventional iron-based alloy absorbing patches are versatile and effective tools for surface cleaning and maintenance, offering a practical solution for removing impurities and contaminants from various surfaces.
Excellent traditional electromagnetic wave absorption patchs
Traditional iron-based alloy absorption patches are widely used in electronic equipment, communication equipment, radar systems, and other fields to suppress electromagnetic interference, improve system performance, and reduce noise.
Electromagnetic wave shield absorber anti-interference patch
The patch is designed to have a specific thickness and composition to target and absorb specific frequencies or a wide range of frequencies, depending on the intended application. It can be customized to meet the requirements of different electronic...
Flame retardant iron-based alloy absorbing patch
Some potential applications of high temperature resistant electromagnetic absorbing patches include: 1. Aerospace and defense: These patches can be used in aircraft, satellites, or military equipment to minimize EMI and ensure proper functioning of...
LET'S GET IN TOUCH
Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.
Fill in more information so that we can get in touch with you faster
Privacy statement: Your privacy is very important to Us. Our company promises not to disclose your personal information to any external company with out your explicit permission.