Storm Vein Cut Roman Travertine
Material: Roman Travertine
Origin: Tivoli, Italy
Availability: Blocks, Slabs, Cut to size
Suggested finishes:
saw cut, honed and stone color filled, honed and unfilled, brushed and unfilled, brushed and stone color filled, honed and transparent resin filled
Suggested processing:
stone profiles, book match
General description
The rumble of sea waves, the whoosh of the wind: a powerful representation of Nature’s strength. Like a painting that represents a great storm with colorful hues and shades, travertine Storm Vein Cut gives brightness and vitality to any setting where it is applied.
This wave-like effect, created by an intricate pattern of streaks, is the result of vein cut. On a cream background stand out grey and beige streaks running all over the surface. An enigmatic personality that makes this stone one of a kind.
Easy to cut and shape, this italian origin Travertine is perfect for both interior and exterior design projects, be it walls, tiles, or floors – given its solidity and non-slip features. This natural stone is also ideal for architectural details such as claddings, tables and countertops. Storm Vein Cut is the best solution for a high-end design.
Roman travertine Storm is an exquisite combination of tones that form a timeless natural stone pattern. Create beautiful marble countertops, shower surrounds, accent walls, and other design features throughout homes and commercial properties. In addition to blocks and slabs, travertine storm is available in book match or in a wide array of tile featuring patterns, octagons, mosaics and more.
For ages Roman Travertine has been used to build long-lasting buildings that are admired by millions of tourists every year: a proof that natural elegance is timeless.
Technical Specifications Roman Travertine Storm
1) Flexural strength (UNI EN 12372)
1a) Load perpendicular to asiontropic planes
Mean Fleaxural Strength | Standard deviation |
12,5MPa | 1,8Mpa |
1b) Load perpendicular to corners of asiontropic planes
Mean Fleaxural Strength | Standard deviation |
13,1MPa | 2,0Mpa |
2) Freeze-thaw resistance (UNI EN 12371)
2a) Load perpendicular to asiontropic planes
Mean Fleaxural Strength | Standard deviation |
8,3MPa | 0,9Mpa |
2b) Load perpendicular to corners of asiontropic planes
Mean Fleaxural Strength | Standard deviation |
9,2MPa | 1,7Mpa |
3) Slip Resistance (UNI EN 1341)
Mean Slip Resistance, Single Sample |
63 |
4) Abrasion Resistance (UNI EN 1341)
Mean Abrasion Resistance |
21,4 |