Development of nanodispersible film material absorbing microwave radiation

The results of theoretical and experimental examination of the electrodynamic performances of composite materials are given. A technique of calculation of electrodynamic parameters of materials with composite interior structure and examples of its practical usage are described. The results of an experimental investigation of the interaction of microwave radiation with thin layers of oxides of copper and iron are presented. X-ray and electron diffraction examination of film ferromagnetic materials after microwave action has shown, that their parameters are essentially distinct from the parameters of materials obtained with standard technologies at similar temperatures and energies. The obtained results indicate the possibility of using microwave radiation in chemical technological processes. An effect is described in which total absorption of electromagnetic energy takes place at the expense of a passing chemical reaction. This opens perspectives of making a new class of radioabsorption materials