FIELD: chemistry.
SUBSTANCE: mirror with heating contains a glass substrate, from the back side of which successively located are a layer of titanium oxide with the geometrical thickness of 50-60 nm, then a layer of silicon oxide with the geometrical thickness of 66-76 nm, then a reflecting 100-300 nm thick aluminium layer. A current-conducting layer of tin oxide with the geometrical thickness of 290-310 nm is located from the external side of the substrate. Electric contacts and a layer of magnesium fluoride with the geometrical thickness of 95-105 nm are located on the current-conducting layer.
EFFECT: invention makes it possible to increase reflectance of the mirror with heating in the visible part of spectrum.
2 dwg, 3 ex
| Title | Year | Author | Number |
|---|---|---|---|
| HEATED MIRROR | 2011 |
|
RU2467895C1 |
| HEATED MIRROR | 2012 |
|
RU2499370C1 |
| HIGH-REFLECTIVITY HEATED MIRROR | 2012 |
|
RU2502235C1 |
| HEATED MIRROR | 2010 |
|
RU2426280C1 |
| HIGHLY REFLECTIVE MIRROR WITH HEATING | 2006 |
|
RU2316155C1 |
| HIGHLY REFLECTING HEATED MIRROR | 2013 |
|
RU2528173C1 |
| METHOD OF MAKING OF HEATED MIRROR | 2006 |
|
RU2306682C1 |
| HEATED MIRROR | 2006 |
|
RU2306681C1 |
| MIRROR WITH HEATING | 2004 |
|
RU2262215C1 |
| LOW-EMISSIVE COATING | 2006 |
|
RU2339591C2 |
