2cm Australian Sandstone Porcelain Paver

2cm Australian Sandstone Porcelain Paver

https://www.wankonceramics.com/australian-sandstone.html

 

2cm Australian Sandstone Porcelain Paver combines the texture beauty of natural sandstone with the excellent performance of ceramic tiles, making it an ideal choice for modern outdoor paving. It uses high-temperature firing technology to present a realistic sandstone texture and natural color on the surface, while also having the wear resistance, anti-slip, anti-fouling and anti-freeze properties of ceramic tiles. Whether it is a garden trail, courtyard terrace or commercial plaza, this ceramic tile paving stone can bring high-end and atmospheric visual effects and long-lasting and durable use experience.

Australian Sandstone Effect Porcelain Paver Main Features

1. Accurately replicates the look and feel of authentic Australian sandstone with fine veining and tonal variation for a realistic natural stone appearance.

 

2. Manufactured from high-density porcelain with a modulus of rupture (MOR) typically >45 MPa, ensuring excellent resistance to pressure, abrasion, and mechanical wear for long-term durability.

 

3. Surface finish achieves R11 (DIN 51130) slip resistance rating, suitable for wet or dry outdoor environments such as pool surrounds, terraces, and walkways to guarantee user safety.

 

4. UV Resistance: Color stability tested under accelerated UV exposure, showing negligible fading (ΔE < 2 after 1000 hours).

Freeze-Thaw Resistance: Passes ASTM C1026 with no visible cracks or surface damage after 50 freeze-thaw cycles.

Water Absorption: ≤ 0.5%, minimizing frost damage and surface degradation.

 

5. Non-porous surface reduces staining and mold growth. Cleaning requires only mild detergent and water, no sealing needed, significantly lowering lifecycle maintenance costs.

 

6. Available in two standard sizes (600×600mm and 600×1200mm) and four classic colors (Black, Dark Grey, Smoke, Beige), enabling tailored solutions for various architectural styles and functional requirements.