Autumn brown sandstone paving patio packs are characterized by their unique cleft riven surface, blending light and dark brown tones to create an elegant, ancient, and historically charming appearance. These natural paving stones are particularly well-suited for traditional architecture, leaving a lasting impression of dignified allure.
For those seeking a rustic and refined aesthetic, autumn brown sandstone paving patio packs are custom-made for consumers who appreciate traditional English patterns.
Each individual slab of autumn brown sandstone showcases a unique colouration that has evolved over thousands of years, highlighting its timeless historical charm. It boasts not only frost resistance and exceptional durability but also impressive wear resistance. The cracked surface of this paving stone ensures superior traction and safety, while the hand-cut dressed edge adds an enduring and historic allure. With a calibrated thickness of 22mm, it simplifies the installation process, making it convenient for laying.
|SURFACE||Split, Riven Surface|
|4 SIZES PACK||900 x 600 x 22 mm, 16 No.
600 x 600 x 22 mm, 16 No.
600 x 290 x 22 mm, 16 No.
290 x 290 x 22 mm, 12 No.
|THICKNESS||Nominal 22 mm|
|MADE IN||Indian Partner Quarry|
Sandstone Paving Patio Packs 4 Sizes:
- Patio Paving: Sandstone paving patio packs 4 sizes are an excellent choice for garden patios and terraces paving.
- Pattern and Cheaper: Sandstone paving patio packs 4 sizes offer an array of stunningly beautiful patterns and are the most cost-effective option among all available sizes due to the inclusion of smaller sizes.
- Aesthetic Appeal: The riven surface and hand-cut edges add charm to countryside gardens, traditional, or rural properties.
- Versatility: Each sandstone slab boasts unique colors and patterns, offering a diverse range of options.
- Durability: Sandstone paving is highly resistant to wear and tear, ensuring long-lasting performance with easy cleaning and maintenance.
- Stability: Sandstone paving exhibits greater stability compared to concrete, minimizing the occurrence of thermal expansion/contraction cracks.