INTRODUCTION
OUR COATING PRODUCTS
Discover our Coating Products !
Our innovative coating products are groundbreakers on the environmental, energy, fire-retardant, waterproof, insulating and elasticity levels. With no joints, our formulas protect against leaks, resist temperature changes, prevent condensation, reflect 80% of the visible spectrum of solar and infrared radiation, have great adhesive strength, and are very fire-resistant. Bronya Coating products offer a lower operating cost than other thermal insulators.
THERMOPHYSICS
How Does the Product Work?
To begin with, there are three ways to transfer heat:
1. Thermal conductivity is the transfer of heat in a solid due to the kinetic energy of molecules and atoms from a more heated part to a less heated part.
2. Convection is the transfer of heat in liquids, gases, granular media by the flows of the substance itself.
3. Radiant Heat Exchange (Thermal Radiation) – electromagnetic radiation emitted by a substance and originating from its internal energy.
Thermodynamics is a science that studies the laws of mutual transformation and energy transfer. The result of these processes is a temperature equilibrium throughout the system. The method and efficiency by which the insulating material blocks the redistribution of heat, known as the process of thermal equilibrium, determines the quality of the insulation.
Heat transfer occurs by convection or radiation between the surface of a solid and the environment. The intensity of this heat transfer is characterized by the heat transfer coefficient. Bronya liquid ceramic thermal insulation material is a complex multi-level structure in which the three methods of heat transfer are minimized.
Bronya ceramic heat insulator is composed of 80% microspheres, and respectively, only 20% of the binder can conduct heat due to its thermal conductivity. Another part of the heat falls on convection and radiation, and because the microsphere contains rarefied air (the best insulator, after a vacuum), the heat loss is not substantial. In addition, due to its structure, the material exhibits low heat transfer from the surface, which plays a decisive role in its thermal physics. Thus, it is necessary to separate the two terms: insulator and thermal insulator, since the physics of the heat transfer process is different in these materials:
- Insulator – the principle of operation is based on the thermal conductivity of the material (min. plate)
- Thermal Insulator – to a greater extent on the physics of waves.
The effectiveness of insulation directly depends on the thickness: the thicker the insulating layer, the better. The thickness of the thermal insulation layer of Bronya’s ultra-thin thermal insulation varies from 1 to 6 mm, the subsequent increase has practically no effect on its effectiveness.
THE THIRD ENVIRONMENT
Contributing to the Improvement of Energy-Efficiency.
The third environment is the growing awareness of the importance of climate change. The fastest and most cost-effective way to mitigate climate change is to improve energy efficiency. Governments have understood this. We understand it too. Product efficiency is fundamental to achieving sustainable energy goals for all. Our customers need solutions to help reduce electricity consumption, mitigate climate change, and help more people benefit from energy efficient products.
We must ensure that we take the necessary means to fight against lobbying by entrepreneurs who reject economic theories and the management practices that result from them, in order to maintain control over their sources of income. It is difficult to question traditional methods. Many entrepreneurs are not open to questioning traditional operating models. What we are bringing is an approach to reduce the cost of thermal insulation. What we are proposing is not a risk but a new method aimed at reducing costs, and in some cases eliminating waste.
The likelihood of seeing a deterioration in the vulnerability of our competitors depends on whether they have developed a risk strategy and a reaction capacity. Those who can adapt to new technologies, adopt a reaction capacity to implement what a new technology brings, will withstand the change.