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Nonmoistening Glass Ball
(Advantages and Distinctive Features)

The body of glass ball is produced by high-speed method of high temperature spherical in the gas's torch with surplus oxygen.

As a result of such technology, the surface of the glass ball becomes thermally polishing, is the lack of physical defects (gas bubbles, cracks), has the highest sphericity (> 98%) of the surface. These parameters allow access to the necessary follow-technology operations as functional coatings. The high temperature process (over 1850 C) provides a guaranteed source of raw material impurities removal microflora and photosynthesis.

1. Nonmoisten coverage received by progressive nanotechnology - low-temperature synthesis method of coating directly on the surface glass ball. The coverage thickness is less than 50 nanometers, it is almost molecular coverage. This ensures the highest degree of coating adhesion to the glass ball material. The coating nonmoisten coverage is achieved 100%.

2. The fraction composition of glass ball's mixture is set to feature. Layout is done on special equipment with a high degree of accuracy; a real deviation does not exceed 5% of the specific content of each selected range. This feature allows trains to receive the necessary work in a fluidized layer, or any anti burn and anti sores beds with require characteristics.

3. Nonmoisten glass balls are a composite product consists of bactericidal materials, stable to the effects of salt solutions, low temperature, to microflora and microfauna and the difference is that the longevity and integrity nonmoisten coverage is not less than 10 years.

4. Nonmoisten glass balls are very smooth surface and as a consequence, the high mobility in fluidized layers with negligible heat release from friction surfaces.

5. During the storage's glass ball, even small fraction (<30 microns) is not sustainable form conglomerates.

6. Methods of atomic-force microscopy and scanning area received images of surfaces, confirming the nature and availability of coverage:

Photo1. 3D image of glass ball is coating surface before synthesis.

Photo 2. 3D image of glass ball is coating surface after synthesis.

Photo 3. Topography and scanning the surface of glass ball with nonmoisten coating in phase contrast with the lowest coverage of synthesis time.

Photo 4. Topography and scanning the surface of glass ball with nonmoisten coating in phase contrast with the highest coverage of synthesis time.