Desenvolvimento e caracterização de compósitos absorvedores de radiação eletromagnética.

Abstract

Define the Stealth technology as the ability of ships, aircraft and submarines become invisible to radar detection. For this, it is necessary to use materials that effectively reduce this probe, this field that can stand out the use of Radiation Absorbing Materials Electromagnetic - RAME. The objective of this research was to obtain a polymer matrix composite silicone rubber and NiZn ferrite load with different concentrations and better dispersion, for their use as a MARE. The composites were obtained with concentrations varying load between 16 and 20 g of NiZn ferrite synthesized by combustion. To improve the interaction between the cargo and the matrix, it has been silanized with 3 aminopropyltriethoxysilane silane agent and incorporated into a composite. The techniques of X-ray diffraction (XRD), Infrared Spectroscopy in the region by Fourier transform (FTIR), Atomic Force Microscopy (AFM), scanning electron microscopy (SEM), Magnetic and Electromagnetic measurements were used to characterize the load and composite. It was noted that the load presented to the inverse spinel crystalline phase with nanometer particle size with characteristics of a soft magnetic material with 15.2 dB absorption values in the range 3 to 4 GHz. Silanization caused no change significant feature in the ferrite, but contributed effectively for better interaction with the matrix, resulting directly in the composite with the best absorption values, -14 dB at 6 GHz range, indicating that the most promising for application as RAME. For other composites was found that increasing the filler content provided processing difficulties which resulted in the formation of agglomerates and will not influence the magnetic parameters.