RDI Detailing. Ceramic Coating Richmond
Why is a ceramic coating called a nano-coating?
The technology for obtaining nanoceramics was discovered back in 1980, after which the methods for obtaining nanoceramics were improved.
RDI Detailing. Ceramic Coating Richmond
https://www.rdidetailing.ca/post/ceramic-coating-richmond
Nano-materials are materials whose composite particles have a size of no more than 100 nm. With such a particle size, the material acquires completely different properties compared to conventional materials. Thus, the prefix "nano" refers specifically to the structure of ceramics, and not to the thickness of the layer obtained during its application (as is often mentioned when describing the properties of nano-ceramics). In fact, the total thickness of several layers of “ceramics” turns out to be more than a wax layer by almost 100 times.
Nano-ceramics have unique properties that simple ceramics do not have. Ordinary ceramics having a macrostructure are brittle, rigid and easily destroyed on impact. However, nano-ceramics have other properties, including super plasticity and higher impact strength.
What does the ceramic coating consist of?
Ceramic coating from different manufacturers may have a different composition. There are many brands that do not have their own factories. They buy semi-finished products from large manufacturers, then come up with various loud slogans, but do not advertise the exact composition of their products.
The formula of the ceramic coating includes solvents /diluents, different concentrations of SiO2 (or other basic elements), as well as other components that affect its properties. The main component can be SiO2 (Silicon Dioxide), TiO2 (Titanium Dioxide) and SiC (Silicon Carbide). Good “ceramics" may not contain a binding polymer, which is a weak link. Thus, the protective layer is completely inert and wear-resistant.
SiO2 is the main component of sand. It has the best ratio of cost and efficiency in the formation of hydrophobic coatings, therefore it is most often used.
TiO2 gives better protection from UV rays, as well as high hardness.
SiC is very rare in nature, but is often used as a synthetic diamond in industry and has a high hardness. Silicon Carbide (SiC) is included in the ceramic coating of OptiCoat. This is the only product on the market containing this component.
An important criterion for a high-quality protective composition is the presence of a high percentage of SiO2 or its substitutes. A good product should contain at least 50% SiO2.
RDI Detailing. Ceramic Coating Richmond
Why is a ceramic coating called a nano-coating?
The technology for obtaining nanoceramics was discovered back in 1980, after which the methods for obtaining nanoceramics were improved.
RDI Detailing. Ceramic Coating Richmond https://www.rdidetailing.ca/post/ceramic-coating-richmond
Nano-materials are materials whose composite particles have a size of no more than 100 nm. With such a particle size, the material acquires completely different properties compared to conventional materials. Thus, the prefix "nano" refers specifically to the structure of ceramics, and not to the thickness of the layer obtained during its application (as is often mentioned when describing the properties of nano-ceramics). In fact, the total thickness of several layers of “ceramics” turns out to be more than a wax layer by almost 100 times.
Nano-ceramics have unique properties that simple ceramics do not have. Ordinary ceramics having a macrostructure are brittle, rigid and easily destroyed on impact. However, nano-ceramics have other properties, including super plasticity and higher impact strength.
What does the ceramic coating consist of?
Ceramic coating from different manufacturers may have a different composition. There are many brands that do not have their own factories. They buy semi-finished products from large manufacturers, then come up with various loud slogans, but do not advertise the exact composition of their products.
The formula of the ceramic coating includes solvents /diluents, different concentrations of SiO2 (or other basic elements), as well as other components that affect its properties. The main component can be SiO2 (Silicon Dioxide), TiO2 (Titanium Dioxide) and SiC (Silicon Carbide). Good “ceramics" may not contain a binding polymer, which is a weak link. Thus, the protective layer is completely inert and wear-resistant.
SiO2 is the main component of sand. It has the best ratio of cost and efficiency in the formation of hydrophobic coatings, therefore it is most often used.
TiO2 gives better protection from UV rays, as well as high hardness.
SiC is very rare in nature, but is often used as a synthetic diamond in industry and has a high hardness. Silicon Carbide (SiC) is included in the ceramic coating of OptiCoat. This is the only product on the market containing this component.
An important criterion for a high-quality protective composition is the presence of a high percentage of SiO2 or its substitutes. A good product should contain at least 50% SiO2.
