processo de tratamento de pelo menos uma camada de prata fina contínua depositada sobre uma primeira face de um substrato

The process for treating continuous electroconductive thin layer deposited on a first face of a substrate such as silico-sodo-calcic glass, comprises altering each point of the thin layer to a temperature of >= 300[deg] C for 0.5 seconds, and increasing a crystallization rate of the thin layer to...

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Hauptverfasser:	Nicolas Nadaud, Ulrich Billert, Andriy Kharchenko, René Gy
Format:	Patent
Sprache:	por
Schlagworte:	CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUSENAMELS CHEMISTRY GLASS JOINING GLASS TO GLASS OR OTHER MATERIALS METALLURGY MINERAL OR SLAG WOOL SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS,MINERALS OR SLAGS SURFACE TREATMENT OF GLASS
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creator	Nicolas Nadaud Ulrich Billert Andriy Kharchenko René Gy
description	The process for treating continuous electroconductive thin layer deposited on a first face of a substrate such as silico-sodo-calcic glass, comprises altering each point of the thin layer to a temperature of >= 300[deg] C for 0.5 seconds, and increasing a crystallization rate of the thin layer to >= 50% by maintaining a temperature of = 50[deg] C at any point on the face of the substrate opposed to the first face and without melting of the thin layer. The substrate has a dimension of >= 2 m. The thin layer is heated by induction and projection technique using plasma torch. The process for treating continuous electroconductive thin layer deposited on a first face of a substrate such as silico-sodo-calcic glass, comprises altering each point of the thin layer to a temperature of >= 300[deg] C for 0.5 seconds, and increasing a crystallization rate of the thin layer to >= 50% by maintaining a temperature of = 50[deg] C at any point on the face of the substrate opposed to the first face and without melting of the thin layer. The substrate has a dimension of >= 2 m. The thin layer is heated by: induction; a projection technique using plasma torch; subjecting the thin layer to flame; and contacting with a hot solid and with radiation of which the wave length is comprised in a part of an infrared radiation absorbed by the layer. The thin layer is altered to a temperature of 300-800[deg] C, when it is based on anatase form titanium oxide. The thin layer is altered to a temperature of 350-550[deg] C, when it is based on silver. Independent claims are included for: (1) a process to obtain a material comprising a substrate and a thin layer; and (2) a susceptible material.
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The substrate has a dimension of >= 2 m. The thin layer is heated by induction and projection technique using plasma torch. The process for treating continuous electroconductive thin layer deposited on a first face of a substrate such as silico-sodo-calcic glass, comprises altering each point of the thin layer to a temperature of >= 300[deg] C for 0.5 seconds, and increasing a crystallization rate of the thin layer to >= 50% by maintaining a temperature of = 50[deg] C at any point on the face of the substrate opposed to the first face and without melting of the thin layer. The substrate has a dimension of >= 2 m. The thin layer is heated by: induction; a projection technique using plasma torch; subjecting the thin layer to flame; and contacting with a hot solid and with radiation of which the wave length is comprised in a part of an infrared radiation absorbed by the layer. The thin layer is altered to a temperature of 300-800[deg] C, when it is based on anatase form titanium oxide. The thin layer is altered to a temperature of 350-550[deg] C, when it is based on silver. 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The substrate has a dimension of >= 2 m. The thin layer is heated by induction and projection technique using plasma torch. The process for treating continuous electroconductive thin layer deposited on a first face of a substrate such as silico-sodo-calcic glass, comprises altering each point of the thin layer to a temperature of >= 300[deg] C for 0.5 seconds, and increasing a crystallization rate of the thin layer to >= 50% by maintaining a temperature of = 50[deg] C at any point on the face of the substrate opposed to the first face and without melting of the thin layer. The substrate has a dimension of >= 2 m. The thin layer is heated by: induction; a projection technique using plasma torch; subjecting the thin layer to flame; and contacting with a hot solid and with radiation of which the wave length is comprised in a part of an infrared radiation absorbed by the layer. The thin layer is altered to a temperature of 300-800[deg] C, when it is based on anatase form titanium oxide. 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The thin layer is altered to a temperature of 350-550[deg] C, when it is based on silver. Independent claims are included for: (1) a process to obtain a material comprising a substrate and a thin layer; and (2) a susceptible material.</abstract><oa>free_for_read</oa></addata></record>
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subjects	CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUSENAMELS CHEMISTRY GLASS JOINING GLASS TO GLASS OR OTHER MATERIALS METALLURGY MINERAL OR SLAG WOOL SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS,MINERALS OR SLAGS SURFACE TREATMENT OF GLASS
title	processo de tratamento de pelo menos uma camada de prata fina contínua depositada sobre uma primeira face de um substrato
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