We live in a world of pollution and hazards. The growing environmental defects and the gradual rise in population negatively impact human beings.
People only prepare themselves and attempt to safeguard a number of products like textiles, engines, and cars against these hazards. However, how can individuals achieve complete protection? The most appropriate answer to this question is car paint protection, ensuring high-quality nanotechnology products.
Every day, after waking up in the morning, individuals usually prefer to see their cars in bright and shiny colors whenever they peek out of their windows. From purchase, people do not want these vehicles to be scratched and contaminated. Even if you achieve excellent internal cleaning of your car, you cannot prevent things externally impacting your vehicle. Nasiol nano-coating products — with their highly qualified material properties and product features — ensure excellent protection of the car surface and paint from various external hazards like scratches, dirt, dust and stains.
Throughout history, paint protection has continued to be a challenging problem in all industrial areas and applications. Therefore, the application of paints is considered to be unique for the external surface of a fabric, and when it comes to surface protection, paint protection would be the first choice. With regards to nano car paint protection, there are a variety of techniques, which can be quite confusing. To prevent such confusion, this article comprehensively describes the concept of nano car paint protection in the following sections.
Past Versus the Future!
Nano car paint protection is the latest trend, spreading nanotechnology on the surfaces of each car to prevent damages caused by environmental impacts. To start with the techniques employed in car paint protection, waxing is the first technique used in protection. in the past, paste waxes were employed as they provided optimum results; however, over time, manufacturers preferred paste and liquid versions of the same formulation of wax.
The main rule in traditional wax-type applications was to apply the product in small amounts, or, this will lead to the formation of a drain on the painted area surface. Yet, Nasiol’s high-tech nano-coatings are more liquefied and can be easily applied, thus ensuring less drain formation. Moreover, layer thickness in wax applications ranges from 10 to 15 µm, while Nasiol nano-coatings range between 0.10 and 0.15 µm, which means they are more water-repellent, more transparent, and less dangerous to the painted surface.
In the above table, nanotechnology is compared with other kinds of techniques through highlighted characteristics. The table clearly shows that nanotechnology offers a better profile in almost every aspect.
What are the Advantages of Nano-Protection?
Several advantages are provided by nanotechnology such that nano-coatings fill the surface in a much better way and render the bond stronger when compared to other kinds of products. Therefore, this technological enhancement offers a durable protection against dirt, dust, mud, and bird droppings. Nano-coatings also protect the car’s surface from UV rays and can withstand temperature variations caused by car engine or weather. Temperature resistance of nano surface coatings, which is around 400 °C, reduces the chances of facing issues concerning the shiny appearance of a car.
Apart from the obvious features of nanotechnology, there is a vital intangible result that saves time. Prior to concentrating on the time-saving aspects, it is advantageous to discuss the potential benefits. First, repelling every external effect ensures that the painted surface remains clean, virtually all the time. In case the surface becomes dirty, undesirable particles can be easily removed so that individuals do not have to devote excess time and money on their car maintenance. Time-saving can be realized by minimizing both efforts and money spent on cleaning.
This information has been sourced, reviewed and adapted from materials provided by Nasiol.
For more information on this source, please visit Nasiol.