Radiant heating floor systems with cement bonded particle boards and wood fiber


BetonRadiant Fiber


Beton Radiant Fiber is a modular system to obtain a radiant heating floor systems and consists of a cement bonded particle board with high density (1350 Kg/m³) according to European standard EN 13986, and an insulating FiberTherm wood fiber panel.

Data sheet Radiant heating floor systems with cement bonded particle boards and wood fiberDownload Data sheet
Specification Radiant heating floor systems with cement bonded particle boards and wood fiberDownload Specification
Install Instruction Radiant heating floor systems with cement bonded particle boards and wood fiberDownload Install Instruction standard
Install Instruction Radiant heating floor systems with cement bonded particle boards and wood fiberDownload Install Instruction plus
Price list Radiant heating floor systems with cement bonded particle boards and wood fiberDownload the Price list

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DESCRIPTION

Beton Radiant Fiber is a modular system to obtain a radiant heating floor systems and consists of a cement bonded particle board with high density (1350 Kg/m³) according to European standard EN 13986, it has high compression resistance equal to 9000 kPa, and an insulating FiberTherm wood fiber.

Beton Radiant Fiber consists in an excellent solution to obtain a radiant heating floor system with condensing boilers. The system can also be used in ceilings and on internal walls, thus eliminating both radiators and air conditioners.

The radiant floor Beton Radiant Fiber is a modular system and suitable for any finish, ensuring an excellent ease of installation and flexibility, which makes it ideal for the realization of radiant floor heating systems.

The cement bonded particle board is modeled on the upper face to receive and lock the floor heating pipes, while the other constitutes the underlying layer, insulating, in FiberTherm wood fiber panels. The upper panel after laying the pipes and filling the joints is suitable for any surface coating, chosen by the user.


The two panels are coupled in the factory with a patented system and the wood used in their processing comes from forests controlled by reforestation cycles and pressed with water and hydraulic binder (Portland cement) with high cold compression ratios.


DIMENSIONS, THICKNESSES AND AVAILABLE COMBINATIONS

  Cement bonded particle board thickness (mm)
Wood fiber thickness (mm) 18 20 20 + 20
20
40

Available dimensions
Two panels coupled in cement bonded particle board and wood fiber 1200 x 500


On request it is possible to produce different formats for minimum quantities of 300 square meters.

On request it is possible to realize housing distances for pipes larger than 14 mm (standard size), up to a maximum of 17mm. With a cost increase of 5%.

TECHNICAL CHARACTERISTICS
  BetonWood cement bonded particle boards



Density (kg/m³) 1350
Fire reaction according to EN 13501-1A2-fl-s1
Thermal conductivity coefficient λD W/(m∗K)0,26
Specific heat [J/(kg∗K)]1880
Resistance to vapor diffusion μ 22,6
Coefficient of linear thermal expansion α0,00001
Thickness swelling after 24h of permanence in water1,5%
Air permeability I/min. m² Mpa0,133
Surface PH value11
Compressive strength (kPa) 9.000,00
Resistance to transverse traction (kPa) 500,00
Resistance to cutting (kPa) 500,00
Elasticity module E (kPa) 4.500,00


TECHNICAL CHARACTERISTICS
  FiberTherm wood fiber insulating panel



Density (kg/m³) 250
Fire reaction according to EN 13501-1E
Thermal conductivity coefficient λD W/(m∗K) 0,048
Specifica heat [J/(kg∗K)]2100
Resistance to vapor diffusion μ 5
Thermal resistance RD (m²·K)/W 0,40 (20) / 0,80 (40)
sd value (m) 0,1 (20) / 0,2 (40)
Compressive strength at 10% of deformation σ (kPa) 10
Resistance to tearing ^ (kPa) 0,15
Compressive strenght (kPa) 150
Compressive strength relative to length (kPa·s)/m² 100


The BetonRadiant Fiber cement bonded particle boards are also:

• resistant to the outside;
• freeze-resistant;
• free from formaldehyde, asbestos.

The system is also available in the version coupled directly in the factory with an insulating layer, which improves the radiating capacity of the entire package.