The best thermal bridge solution

A homogeneous building

Using the same materials for the complete structure of the building – blocks, mortar and concrete – i.e. pumice.

Total elimination of thermal bridges

Using Batiponce assembly mortar. Thermal conductivity similar to that of PonceBloc® for joints, filling of chases and utility circuits.

Using PonceBloc® ancillary blocks (slip blocks, chain bond blocks, stud blocks, etc.) Thermally treated lightweight filling concrete for non-structural formwork (rounded window sections, oculi etc.)

PONCEBLOC 20 RT+

▼ PONCEBLOC30According to research carried out by the Cergy-Pontoise University.

PONCEBLOC DATASHEET: THE THERMAL BRIDGE CORRECTION

Roofs Ψ = 0,03 W/m.K
Intermediate floor Ψ = 0,30 W/m.K (5 cm pumice slip block)
Ground floor on beaten earth Ψ = 0,26 W/m.K
Ground floor over crawl space Ψ = 0,04 W/m.K

PONCEBLOC 30 MTh11

▲ PONCEBLOC20According to research carried out by the Cergy-Pontoise University.

PONCEBLOC DATASHEET: THERMAL BRIDGE CORRECTION

Roofs ψ = 0,03 W/m.K
Intermediate floor ψ = 0,22 W/m.K (10 cm pumice slip block) ψ = 0,10 W/m.K (5cm pumice slip block+ 5cm insulation)
Ground floor on beaten earth ψ = 0,29 W/m.K (without breaking the thermal bridge) ψ = 0,27 W/m.K (breaking thermal bridge: 5cm insulation)
Ground floor over crawl space ψ = 0,04 W/m.K (without breaking the thermal bridge) ψ = 0,005 W/m.K (breaking thermal bridge: 5cm insulation)