Non Woven Fabric Anechoic Absorber EMC Anechoic Chamber Absorber Material

Non-woven Fabric Anechoic Chamber Absorbing Material

Non-woven fabric absorbing material is a functional material specifically designed for controlling electromagnetic waves. It is mainly used in microwave anechoic chambers. By absorbing electromagnetic waves, it simulates a pure and non-reflective "free space" environment, thereby ensuring the accuracy and reliability of the performance test results of the tested equipment such as antennas, radars, and various electronic products.

Introduction of machining center

Specializing in the design, manufacturing and processing of various composite non-metallic materials such as honeycomb auxiliary materials, polyurethane sponge, carbon fiber board, glass fiber board, FRP composite materials and EVA.PMI.
 

Technological superiority

The processing center has more than 20 CNC processing equipment: double head gantry five-axis machining center, high precision gantry high-speed five-axis, three-axis machining center, etc., the maximum size of processing is x3000mm x Y8000mm x Z1200mm.

The processing center has advanced testing methods: flexible material testing technology, large gantry three-coordinate and scientific management methods. The processing accuracy of products has been leading the domestic related industries in the field of composite and non-metallic processing.

The processing center integrates research and development, design, production and processing, with strong technical strength and professional manufacturing team.

The processing center has independent development of processing equipment, research and development of absorption material processing technology. The processing tool independent research and development ability, and has obtained a number of invention patents and utility model patents.

The integrated manufacturing system encompasses design of low-scatter test carriers, RCS simulation, production, and testing. Our team has been dedicated to research on process characteristics of low-scatter test carriers, structural mechanics, assembly techniques, RCS simulation, and maintenance support. Through innovative studies combining non-mold forming sheet metal technology with machining and riveting methods, we have achieved breakthroughs in key technologies for test carrier development and production. Concurrently, we focus on maintaining and servicing standardized test carriers while developing operational support technologies for testing processes.