Aeropan® is a panel designed for the heat insulation of those building structures which require a higher degree of insulation in the least possible space.
It consists of a nano-technological insulation in Aerogel coupled with a polypropylene breathing membrane reinforced with glass fibre and has been designed for reduced-thickness heat insulation.
With a thickness of 10 mm – and heat conductivity of 0.015 W/mK – Aeropan® allows reducing energy dispersion and recovering space in civil, commercial and residential buildings.
MINIMUM SPACE, MAX INSULATION
The properties of the panel – minimum heat conductivity, flexibility and compression resistance, hydrophobicity and easy installation – make it an indispensable product for providing high levels of heat insulation both in new buildings and in the rehabilitation of older ones.
This product is ideal for application on outside perimeter walls and inside walls, intrados, window padding, roofs and for solving thermal bridges.
Aeropan® is the perfect choice for outdoor and indoor restructuring, as well as building recovery and historical buildings subject to architectural restraints which require top levels of living comfort.
OUTDOOR/INDOOR THERMAL INSULATION FINISHING
Heat insulation of the outdoor/indoor finishing system type, for vertical and horizontal surfaces, such as overhanging balconies and the like, consisting of a semi-rigid panel, made up of a layer of Aerogel silica reinforced with PET fibres (felt), of the Aeropan® type, water repellent and breathing, supplied in 1400×720 mm panels, with a nominal thickness of 20 mm, 30 mm, 40 mm) with volumetric density of 230 kg/m³, heat conductivity 0.015 W/mK, heat resistance Rd 0.67 m²K/W per cm of thickness, temperature of use between -200°C /+200°C, fire reaction euroclass CS1D0, permeable to water vapour (μ 5),
impermeable to surface water and/or immersion with water contact angle of no less than 150°, extended on flat or curved surfaces, vertical or horizontal, after gluing, installed on smooth and dry dust-free and perfect integral surfaces devoid of any roughness.