http://sculpsureinwestpalmbeach.com/d/xhe8uVwrxGk The bending strength, if we are talking about flooring, is one of the main characteristics and requirements for laying tiles, and in the process of its exploitation. The limit value of the load, which the material can withstand without breaking, characterizes the strength (or resistance) of the bend.

http://mococo.org/keyworker/ Ceramogranite after firing has such a dense structure that its water absorption rates are close to zero, so ceramic granite is characterized by high frost resistance. Such requirements are required for the material when arranging floors of pools, car washes, bathrooms, facades, basement surfaces, facing of stairs and steps in the street. With these tasks the ceramagranite works great.

When used, the floor surface is subject mainly to erosion efforts: we swing feet, move furniture, drag heavy things. At the same time, I do not want to have traces of such activity on it. The special technology of production of ceramic granite provides exceptionally high wear resistance, and therefore, the minimum wear of the coating for a long time service. For the care of ceramic granite with a matte surface you can safely use any household powder for cleaning.

The ability of the material to withstand the effects of various substances (household chemicals, fats, salts, alkalis and acids), without changing the appearance, determines its chemical resistance. Objective assessment gives direct contact with aggressive substance. Ceramic granite has high chemical resistance, is equivalent to the European class AA, which corresponds to the lack of visible changes in appearance after prolonged contact of the tile with aggressive medium: acid and alkaline. High alkaline resistance (97-98%) of ceramic tiles allows you to use any detergents during care. Ceramic granite is successfully used in chemical plants, hospitals, schools, places for catering.

Unlike other finishing materials (wood, linoleum, wallpaper, etc.), ceramic granite by its nature is absolutely non-combustible material. It is inert to the flame and is not subject to destruction at temperatures that are achieved in the event of a fire. The floor or wall covered with ceramic granite does not support combustion and does not emit harmful substances at high temperatures. Moreover, with the help of experiments it was established that the surface is lined with ceramic granite, in the event of a fire provides additional protection of the bearing structures of the building and consequently decreases the risk of destruction. These properties of ceramics are primarily due to the application of its production of such raw materials: sand, clay, feldspar, metal oxide. In addition, the temperature in the furnace, in which the sintering of the tile occurs, is from 1180 ° C to 1250 ° C, t. E. exceeding the normal fire temperature.

The thermal conductivity of the ceramic tile depends on its porosity and is characterized by the thermal conductivity coefficient γ (W / (m 2 * º C). Here are some examples of thermal conductivity of the building finishing materials (W / (m ² º C):
– concrete slabs – γ = 1,85 – 2, 05;
– hollow brick – γ = 0,5 -0,8;
– mineral wool (heater) – γ = 0.07 – 0.08;
– ceramic tile – γ = 2.95 -3.6;
– wood, plywood – γ = 0,1 – 0,23;
– glass – γ = 0,7 -0,8;
– steel fittings and metal structures for ventilation facades – γ = 34 -58.
When laying floors using ceramic granite it is necessary to create layer layers to reduce the thermal conductivity or create a device “warm floor”. The thermal conductivity of the floor material becomes particularly important when the choice is made in favor of the installation of a warm floor, ceramic granite with its relatively high thermal conductivity does not know its competitors.