- Sintered Stone
Water Absorption: by mass % 0.022
Density: 2390.24 Kg/m3
Flexural Strength: 54.78 MPa
Recommended Usage: Kitchen and bathroom countertops, commercial tops, ornamental stone, stairs, interior, exterior wall and floor applications, mosaic, waterjet pattern, wall panels, table tops, columns, fireplaces, custom furnitures
Finishing Surface: Polished (Glossy), Matt - Rough, Honed
Additional Names: Lanting Champor Sintered Stone, Wooden Vein Sintered Stone, Caldera Brown Sintered Stone
Caldera Brown Sintered Stone is an artificial stone meticulously crafted with advanced technology to emulate the texture of natural wood. This sintered stone is remarkably difficult to distinguish from genuine wooden tiles, featuring a light brown color with a wooden vein textured pattern. Available in various thicknesses, including 0.6mm, 0.8mm, 10.00mm, 12.00mm, 14.00mm, 16.00mm, 18.00mm, and 20.00mm, Caldera Brown Sintered Stone is produced through a process where a matrix of minerals is heated (or sintered) to form a solid, impenetrable mass. Its surface exhibits resistance to etching, scratching, burning, or staining. Caldera Brown Sintered Stone surpasses quartz in terms of durability in every measurable way, making it an excellent choice for a variety of design applications. Typically used for kitchen and bathroom countertops, commercial tops, ornamental stone, stairs, interior and exterior wall and floor applications, mosaic, waterjet patterns, wall panels, table tops, columns, fireplaces, and custom furniture.
Sintered Stone Test Result
Apparent Density..... BS EN 14617-1..... 2390.24 Kg/m3
Water Absorption by mass..... BS EN 14617-1..... % 0.022
Water Absorption by Capillarity..... BS EN 1925..... % 0.0057
Flexural Strength..... BS EN 14617-2..... 54.78 MPa
Flexural Strength (after 25 freeze cycles)..... BS EN 14617-2..... 54.26 MPa
Flexural Strength (after 20 cycle thermal shock)..... BS EN 14617-2..... 54.43 MPa
Coefficient of freeze resistance in flexural strength (after 25 freeze cycles)..... BS EN 14617-5..... 98.5
Coefficient of thermal shock resistance as change in flexural strength (percentage after 20 cycles).... BS EN 14617-6.... % 0.89
Abrasion Resistance..... BS EN 14617-4..... 14.04 mm
Determination of resistance to fixing..... BS EN 14617-8..... 2079.05 N
Chemical Resistance..... BS EN 14617-10..... C4
Impact Resistance..... BS EN 14617-9..... 1.969 J
Linear thermal expansion coefficient..... BS EN 14617-11.....5.788 10-6 (°C-1 )
Thermal conductivity in dry condition..... BS EN ISO 10456..... 1.29 W/m.K
Specific heat capacity..... BS EN ISO 10456..... 840.03 J/kg.K
Slip Resistance for dry honed surface..... BS EN 14231..... 79
Slip Resistance for wet honed surface..... BS EN 14231..... 26