The invention relates to a multiple glazing including at least two substrates, one substrate being coated on an inner face in contact with a gas-filled cavity with a thin-film multilayer coating having reflection properties in the infrared and/or in solar radiation, the coating including a metallic
The invention relates to a multiple glazing including at least two substrates, one substrate being coated on an inner face in contact with a gas-filled cavity with a thin-film multilayer coating having reflection properties in the infrared and/or in solar radiation, the coating including a metallic functional layer and at least two dielectric films, each including at least one dielectric layer, the metallic functional layer being placed between the two dielectric films, characterized in that the two dielectric films each include at least one absorbent layer which is placed in the dielectric film between two dielectric layers, the absorbent material of the absorbent layers being symmetrically placed on either side of the metallic functional layer.
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1. A multiple glazing, comprising: at least a first and a second substrate which are held together by a frame structure; anda separation between an external space and an internal space, in which at least one gas-filled cavity lies between the two substrates,wherein one of the substrates is coated on
1. A multiple glazing, comprising: at least a first and a second substrate which are held together by a frame structure; anda separation between an external space and an internal space, in which at least one gas-filled cavity lies between the two substrates,wherein one of the substrates is coated on an inner face in contact with the gas-filled cavity with a thin-film multilayer coating having reflection properties for at least one selected from the group consisting of infrared radiation and solar radiation,wherein the thin-film multilayer coating comprises a single metallic functional layer and two dielectric films,wherein the single metallic functional layer is placed between the two dielectric films,wherein the dielectric films each comprise at least two dielectric layers,wherein the two dielectric films each comprise at least one absorbent layer which is placed in the dielectric film between two dielectric layers, andwherein absorbent material of the absorbent layers is symmetrically placed on either side of the metallic functional layer. 2. A multiple glazing, comprising: at least a first, a second, and a third substrate that are held together by a frame structure; anda separation between an external space and an internal space, in which at least two gas-filled cavities each lie between two substrates,wherein one of the substrates is coated on an inner face in contact with the gas-filled cavity with a thin-film multilayer coating having reflection properties for at least one selected from the group consisting of infrared radiation and solar radiation,wherein the thin-film multilayer coating comprises a single metallic functional layer and two dielectric films,wherein the dielectric films each comprise at least two dielectric layers,wherein the single metallic functional layer is placed between the two dielectric films,wherein the two dielectric films each comprise at least one absorbent layer which is placed in the dielectric film between two dielectric layers, andwherein absorbent material of the absorbent layers is symmetrically placed on either side of the metallic functional layer. 3. The glazing of claim 1, wherein at least one of the substrates comprises, on at least one face in contact with a gas-filled cavity, an antireflection film which, relative to the gas-filled cavity, is opposite the thin-film multilayer coating. 4. The glazing of claim 1, wherein at least one of the absorbent layers comprises a nitride. 5. The glazing of claim 1, wherein the absorbent material of the absorbent layers has a total thickness between 0.5 and 10 nm, including these values. 6. The glazing of claim 1, wherein subjacent dielectric films and superjacent dielectric films each comprise at least one dielectric layer comprising silicon nitride optionally doped with at least one other element. 7. The glazing of claim 1, wherein each absorbent layer is placed in the dielectric film between two dielectric layers which both comprise silicon nitride, optionally doped with at least one other element. 8. The glazing of claim 1, wherein the functional layer is placed directly on an underblocker film placed between the functional layer and the dielectric film subjacent to the functional layer, and/orthe functional layer is deposited directly beneath an overblocker film placed between the functional layer and the dielectric film superjacent to the functional layer,andwherein at least one selected from the group consisting of the underblocker film and the overblocker film comprises a thin layer comprising nickel or titanium having a physical thickness, e′, such that 0.2 nm≦e′≦2.5 nm. 9. The glazing of claim 1, wherein a final layer or overcoat of a superjacent dielectric film, which is furthest away from the substrate, comprises an oxide. 10. A method of manufacturing the glazing of claim 1, comprising placing the thin-film multilayer coating on an inner face of the at least one substrate. 11. The glazing of claim 1, wherein the single metallic functional layer comprises silver. 12. The glazing of claim 2, wherein at least one of the substrates comprises, on at least one face in contact with a gas-filled cavity, an antireflection film which, relative to the gas-filled cavity, is opposite the thin-film multilayer coating. 13. The glazing of claim 1, wherein all the absorbent layers comprises a nitride. 14. The glazing of claim 1, wherein at least one of the absorbent layers comprises niobium nitride NbN or based on titanium nitride TiN. 15. The glazing of claim 1, wherein all the absorbent layers comprise niobium nitride NbN or based on titanium nitride TiN. 16. The glazing of claim 1, wherein the absorbent material of the absorbent layers has a total thickness between 2 and 8 nm, including these values. 17. The glazing of claim 1, wherein each absorbent layer is placed in the dielectric film between two dielectric layers which both comprise silicon nitride, doped with a dopant comprising aluminum. 18. The glazing of claim 1, wherein a final layer or overcoat of a superjacent dielectric film, which is furthest away from the substrate, comprises an oxide, deposited substoichiometrically. 19. The glazing of claim 1, wherein a final layer or overcoat of a superjacent dielectric film, which is furthest away from the substrate, comprises titanium oxide (TiOx). 20. The glazing of claim 1, wherein a final layer or overcoat of a superjacent dielectric film, which is furthest away from the substrate, comprises a mixed tin zinc oxide (SnZnOx).
Coustet,Val?rie; Nadaud,Nicolas; Barrieres,Fr?d?ric; Brochot,Jean Pierre, Glazing provided with a stack of thin layers for solar protection and/or heat insulation.
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