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What are the main characteristics of the above-mentioned ceramics and of the long-wave infrared vibration in general, and what is it good for?
After more than seven years of research, we have succeeded in development of a natural, chemical-free combination of rocks and minerals, which can be found in different parts of the world, and which is combined in a special series of complex physical-chemical processes. As a result, a new material has been created - a composite ceramics, which has measurable long-wave infrared vibration emission. The emission level approaching a certain range of the theoretical black body radiation, as basic measurement, by (97-99%)
This material is capable of taking up all types of energy from the environment, such as background radiation, light and heat energy, and restructuring them into FIR energy radiates them back into the environment, or in the case of humans, for the use of our body.
As a result, our developed and continually reproducible raw material belongs to the most efficient infrared vibration materials in the world, taking into consideration that its efficiency is about 25-35% higher than that of tourmaline and germanium, which are mined as rocks (as minerals) and which are mostly used for such purposes, and is about 10-15% higher in efficiency compared to the artificially produced materials. (The spectroscopic analysis and emission graphs, which have been obtained from the Institute of Quantum Physics of the Hungarian Academy of Sciences, the only accredited institution of the kind in Hungary, are presented in the following pages and the colour and emission tests can be found among the attachments.)
This property and its effectiveness makes our material exceptional in the whole world. However, it has other special features, which are currently being studied within the framework of the company's research and development program:
these are, e.g.:
The process of micronization provides an opportunity for our material to be used effectively and practically without limitation in almost any application. By using a special milling process with the help of a jet mill, the material is milled into a grain of 2 microns (1000 microns in a millimetre). This means that a cubic centimetre of material forms approximately 5000 square metres of infrared vibrating surface. On the one hand, this size provides use of little active agent to achieve a surface with high vibration, and, on the other hand, it makes it possible to apply the material in small size technologies.