Dry screed made of gypsum fiber with tongue-and-groove joint and innovative milling pattern in a 12 cm grid; Dimensions: 1,200 x 600 x 20 mm (cover size); about 18.9 kg/sheet, about 26.3 kg/m²; Non-flammable, building biology tested and recommended sheet material; No screws required.
Discover the future of underfloor heating with NORIT-TE 20 Therm - the do-it-yourself solution for everyone. Our innovative product combines the efficiency of traditional underfloor heating with the ease of installation in dry construction. No milling machine required!
Features and Benefits:
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Thin Design: Fits perfectly into gypsum fiber drywall screeds, ideal for renovation and new construction.
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DIY Friendly: Easy installation without the need for a milling machine. Install the heating yourself and save on installation costs.
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Efficient and Effective: Enjoy an evenly heated room with our advanced thermal technology.
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Durable and Reliable: Built with high-quality materials for long-lasting performance.
Quickly install your NORIT-TE 20 Therm and experience the comfort of advanced underfloor heating, with the freedom to do it yourself. Perfect for any room, bring warmth where you need it most.
A low installation height of only 23 mm.
The NORIT underfloor heating NORIT-TE 20 Therm GF (Gypsum Fiber) combines dry screed and underfloor heating in one system: The heating pipes can be placed individually and firmly in the pre-milled, load-distributing screed. After applying the casting compound, which is only 3 mm thick, a ready-to-lay surface is created - with a minimum installation height of only 23 mm.
Due to the surface-close placement of the heating pipes, the desired temperature is immediately felt in the room. The rapid heating and cooling is not only good for your wallet but also for the environment, because hardly any heating energy is lost. Thanks to the unique plug-in system with groove and spring, the plates are connected effortlessly, time-saving and without any screws. Finally, the resulting flat surface can be covered with almost any desired top layer.