Volgograd Innovation Resource Center received another patent No. 2731112 - Method for determining the thermal conductivity coefficient of heat-insulating coatings based on hollow microspheres using a thermal imager.
In addition to the fact that VIRC has achieved breakthrough technologies in the field of production of heat insulators that have an unprecedented thermal conductivity coefficient, we got the opportunity to measure changes in the composition of the recipe using contactless devices, which in recent years has turned from innovation into the norm for our partners.
We have both, a lot of thermal insulation measurements from dealers and distributors after the commissioning of objects, at the stage of implementation, and product approbation, for example, in reputable laboratories (Peter the Great St. Petersburg Polytechnic University (VYSOTA Research Laboratory)), which investigated the thermal conductivity coefficient GIT Bronya using thermal imaging, and issued a technical report that confirms the measurement technology with a thermal imager.
According to this method of thermal conductivity 0.001 at the stage of implementation in the project, the client can apply, measure, demonstrate and confirm the effectiveness of Bronya.
This patent allows you to confirm the thermal conductivity coefficient both at the stage of product introduction and after passing the examination, so that the customer or client can confirm the entire effectiveness of the product to inspection organizations and residents.
The main way of thermal insulation Bronya on facades is:
• Reduction of heat loss
• Elimination of "cold bridges"
• No additional load on the foundation
• Reduction of excessive moisture content of the masonry and improvement of the thermal performance of the masonry during restoration work
• Ability to isolate complex architectural facades
• Protection against adverse weather conditions, weather phenomena and preservation of the building structure from destruction
• Equalizing the temperature of the outer walls, getting rid of the enclosing structures from temperature extremes
• Reduction of capital and operating costs for facade repairs, increase in the time interval between repairs
• Possibility of coating in hard-to-reach places
• Effective for the protection of building facades exposed to wind loads with high salinity (coastal areas)
• Preventing and stopping the destruction of decorative and architectural structures from temperature extremes.
Thus, we can confirm the above tasks using the technique described in this patent, such as:
• Confirmation of thermal conductivity on the facades during the examination,
• Confirmation of lambda in laboratory studies.
This patent legally secured the right of the Volgograd Innovation Resource Center to use in Russia devices for insulating roofs of buildings, facades, building structures with a subsequent energy audit and determination of thermal conductivity.
Such a provision obliges third-party organizations to coordinate with the patent holder the use of a liquid thermal insulation coating for insulating roofs, facades, building structures, buildings and assessing thermal resistance. The area covered is so wide that a license is required when it comes to any thermal insulation coating on roofs / roofs.
Patent No. 2731112 is the ninth in the list of our inventions, in the near future we are announcing an update of our presentation of the Bronya patent.
Important!!! A new patent has been received - A method for determining the thermal conductivity of heat-insulating coatings based on hollow microspheres using a thermal imager
21 September 2020