Low temperature,the glass is transparent, high temperature, glass is frosted.
Thermochromic LC Glass|Global Smart Glass|Massieve rollen en smart flim op maat voor bewerkte glasfabrieken en bedrijven.
Slimme film voor lamineren|Global Smart Glass
Slimme film voor lamineren,Massieve rollen en smart flim op maat voor bewerkte glasfabrieken en bedrijven.,
We leveren enorme rollen privacyfolie voor laminering aan de fabrieken die zelf ervaring hebben met het snijden en maken van rails. De omschakelbare film op maat met busbars (elektrodenreis) is ook beschikbaar voor de bedrijven die alleen het gelaagde glas maken.
Wij leveren de 's werelds toonaangevende intelligente film voor lamineren, tussenlaag (EVA) en glas om uw lamineerproces te versnellen. Onze privacyfilm kan worden gelamineerd met behulp van PVB of EVA (zakmethode) met een standaard autoclaaf. De training en instructies zijn beschikbaar na ontvangst van onze producten.
Slimme film voor lamineren,Optisch VLT-ON≥80% VLT-OFF<70% HAZE-ON ≤4% HAZE-OFF≥95% Werkspanning-ON 65VAC Responstijd<10ms Stroomverbruik-ON≤5W/m2 Bedrijfstemperatuur AAN/UIT -10° C tot 70°C Dikte: 400 m Maximale breedte: 2000 mm Maximale lengte: 50 m
Thermochromic LC Glass,one kind of the temperature controlled smart glass, is applied in building curtain wall or windows for sunlight protection to reduce glare and reject heating from Sun.
When the thermochromic LC glass exposed to sunlight, the heat from sun warmed the glass. As it reaches the setting temperature, the LC glass gets frosted gradually. When sunlight gets weak, the temperature of glass decrease gradually, thus the glass appears transparent just like normal glass.
This process happens repeatedly without extra power or extra personnel to take care of.
The thermochromic LC glass is activated by the change of environmental temperature to alter its own shading condition and eventually save energy for buildings.
The LC shows small molecule at low temperature, the sunlight passes through.
When the environmental temperature is lower than LC memory temperature, the nanoparticles is smaller than sunlight wavelength and sunlight could go through completely and glass is transparent.
The LC shows large molecule at high temperature, the sunlight gets partially blocked.
When the environment temperature is higher than memory temperature, the nanoparticles gets together and becomes nanocluster. When the size of nanocluster is bigger than sunlight wavelenghth, part of sunlight is blocked and some of sunlight refracted through the glass which then becomes frosted and sunlight rejected.
In the morning and afternoon, more light pass through the glass as we need because the temperature is low and the glass is transparent. At noon, the glass turns to frosted to reject more heat because the temperature of glass is high. So the glass saves more energy by the adaptive adjustment.