By using smart glasses, it is possible to prevent the passage of harmful ultraviolet rays of the sun (absorbing more than % of UV rays) and also more than % of IR rays. All these facilities, along with the very low power consumption ( watts per square meter) of these glasses, have justified the use of this product in smart homes, conference halls, partitions, swimming pools and commercial facades.
Older glass was sensitive to moisture, and humidity had a negative effect on its performance. If you intend to use smart glass for humid environments such as bathrooms or swimming pools, the best option for this model would be that humidity does not affect it. Consumers can change the glass from opaque to transparent at any time, or vice versa, which gives the user complete control over the environment.
برای ساخت شیشه ی هوشمند از تکنولوژی (Polymer Dispersed Liquid Crystal (PDLCs است.فاده می شود که در ان از یک لایه film بین شیشه های دوجداره است.فاده می شود که قابلیت تنظیم عبور نور از خود را دارد به این گونه که در صورت نیاز شیشه مات یا شفاف میشود و از عبور نور به داخل محوطه ی مورد نظر می تواند جلوگیری کند.
PDLC and SPD smart glass technology is an active glass technology that switches the situation with electricity. These glasses simply change the amount of light passing through with the help of smart (and generally transparent) materials. By connecting an electric current to the glass, the particles of the material between its layers become regular and transmit light, and as soon as the power is cut off, they return to an irregular state and the glass becomes opaque. These glasses have the ability to control a variety of rays such as visible light, UV, IR, etc.
The inner layer of smart glass, smart film, consists of several layers of advanced materials that are placed next to each other with high technology, each of which plays a role. The first layers of this smart film are made of PET polymer sheets, which are covered with a very thin layer of a transparent material that conducts electricity. Between two layers of these polymer sheets, a material called PDLC is placed. The constituents of this layer are actually liquid crystals that are completely irregularly distributed in a polymer field, and this irregular distribution causes the light rays to break and make the film opaque.