FUNCTIONING

OXYDTRON EVOLVE MECHANISM

It's effect mechanism is based on the changes in the chemical processes of concrete bonding which we examined on the level of physics (elemental level). Here we experienced that water is unable to convey to reach the necessary energy for the elemental balance (100% micro Chrystal structure). This missing energy is conveyed by the Oxydtron mineral admixture which results the increased of micro crystals. The components of Oxydtron in the presents of water have an effect on the structure of old concrete and other pore structured mineral building materials used in the building industry triggering secondary crystallizing processes.

BRIEFLY ABOUT OXYDTRON

NEW STRUCTURE

Secondary crystallization results in the formation of a new, insoluble or less soluble microcrystals that fill capillaries, macro pores and macro cracks. By using Oxydtron, the salts and water present in concrete and building structures become an insoluble, solid crystalline material. At the end of the process, the diameter of the pores drops below 10^(-7)mm, which changes the structure and the energy of the concrete. The role of water in the energy-transformation is partly taken over by the high energy of Oxydtron.

BUILDING RESISTANCE

Normal concrete contains 70% macro and 30% micro pores. With Oxydtron, this ratio is reversed and significantly shifted: 3% macro- and 97% micro pores are formed, which is excellent in terms of water resistance and chemical resistance. The resulting molecules in this near-equilibrium state require no additional energy from the water for the process, because it is provided by Oxydtron, hence they will be more resistant to the destructive effects of acids and alkalis. At the molecular level, a decrease in pore diameter will increase the pressure of liquid and gas in the inner pores, thereby protecting against further penetration of water, gas and electrolytes. In terms of energy levels, Oxydtron’s high-intensity energies meet the needs of destructive materials, by which they become neutral.

Oxydtron concrete eliminates all deficiencies and limitations found in conventional concrete.

Hydration heat

In the case of conventional concrete, the use of cement is limited due to the heat of hydration (maximum 450 kg), while with Oxydtron Nanocement this could be as high as 1000 kg. In Oxydtron concrete, the development of heat of hydration is less because Oxydtron enters the traditional hydration process. This means that the hydration of calcium compounds using not only the energy of water, but also the energies of Oxydtron’s elemental matrix. This results in perfect communication between the elements. This is its feature that allows high-mass concreting without burning or cracking the concrete.

Dosage

Oxydtron Nanocement acts as an additive activator between cement and other minerals, so it is added to concrete in equal amounts (10 kg / m^3), regardless of each component. Under extreme conditions (below freezing or above 25°C and above 330 kg cement content) the amount of additive can be increased by 5 kg in order to speed up the process.

Minimum amount of mixture time

The mixture time of Oxydtron concrete is minimum 15 minutes, but this includes the time spent in a mixer as well, which should possibly happen on a high number of rotations.

The advantages of the adaptation of Oxydtron materials:

EXAMPLES OF OXYDTRON APPLICATION

Post-waterproofing using Oxydtron technology

Internal works:

REPAIRING WITH TRADITIONAL METHODS.

Outer recovery:

Internal works:

Technically simple solution, with efficient and fast implementation

The expensive and time consuming solutions are not always effective.

CAN YOU PRODUCE
100% WATER ISOLATION AT THE COST OF 1200FT/M2, THAT DOESN'T CORRODE AND CAN NOT BE DESTROYED?

OXYDTRON PRODUCTS

Please take a look at our products.

WORKS

RELATED SITES

HÍREK

Az OXYDTRON és a műemlékvédelem

Az Oxydtron-technológiával az elfáradt (korrodálódott) építőanyagok újra megerősíthetőek, sőt így utólagosan biztosítjuk számukra azt az energiát, amelynek köszönhetően az elkövetkezendő évszázadban megőrzik stabilitásukat. A legnagyobb probléma az utólagos vízszigetelés. Ezt a problémát eddig

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