The development of nanotechnology touches many aspects of our daily lives, and the protection of stone is just one of its applications. Here, we provide a brief analysis of the protective role of nanotechnology on the surface of stones.

Our nano-technology based stone surface protector offers excellent waterproof and stain-resistant properties.

After surface treatment, the protective agent penetrates into the micropores of the stone to form a strong and durable protective layer. The macromolecular framework groups are firmly bonded to the stone, while the groups on the side chains of the macromolecular framework form a hydrophobic and oleophobic layer on the outer surface. The protective agent with nano-materials forms a protective layer on the stone surface. When liquid comes into contact with the stone surface, the surface tension decreases, preventing the stone from being wetted by the liquid. This avoids the liquid from seeping into the stone through capillary pores, thereby solving various stone disease problems.

2. Stone surface protector with nanotechnology features weather resistance:

Our nano-technology stone surface protector utilizes a matrix material of superior organic polymer, featuring a stable molecular structure. It boasts excellent weather resistance, resistance to hydrolysis, and good tolerance to chemical media, as well as superior solvent resistance. Consequently, the stone protector exhibits outstanding weather resistance, ensuring long-term protection for the stone.

3. Stone surface protective agents using nanotechnology offer permeability:

Nano particles are minute, with low viscosity and excellent fluidity, allowing for penetration deep into the microscopic voids within stone, up to 1 to 2 centimeters. They can maintain the stability of their protective properties over an extended period.

4. Stone surface protective agent with nano-technology features abrasion resistance:

Nano particles are minute enough to penetrate deep into the stone, forming an integrated whole with it rather than just forming a coating on the surface. This results in excellent wear resistance, even after the stone has been worn down by 1 centimeter, where it continues to provide protective functions.

5. Stone surface protective agent with nanotechnology features transparency:

Nanomaterials form a film on the stone surface, covering the entire surface. Due to the presence of nanoparticles, they fill the pores caused by the defects in the stone, and this surface film does not interfere with the normal respiration of the stone matrix. The film itself is colorless and transparent, ensuring the luster and moisture of the stone without affecting its appearance.