Electrically conductive article

An article having a light transmission of at least 50 per cent comprises a body of glassy siliceous material and a continuous layer on the body composed of an intimate molecular mixture of a metal and a metallic inorganic dielectric compound, the proportions of the layer being such that it is electr...

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Hauptverfasser:	COLBERT WILLIAM HARRY, MORGAN WILLARD LEROY, WEINRICH ARTHUR ROBERT
Format:	Patent
Sprache:	eng
Schlagworte:	BASIC ELECTRIC ELEMENTS CABLES CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUSENAMELS CHEMISTRY CONDUCTORS ELECTRICITY GLASS INSULATORS JOINING GLASS TO GLASS OR OTHER MATERIALS METALLURGY MINERAL OR SLAG WOOL SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING ORDIELECTRIC PROPERTIES SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS,MINERALS OR SLAGS SURFACE TREATMENT OF GLASS
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creator	COLBERT WILLIAM HARRY MORGAN WILLARD LEROY WEINRICH ARTHUR ROBERT
description	An article having a light transmission of at least 50 per cent comprises a body of glassy siliceous material and a continuous layer on the body composed of an intimate molecular mixture of a metal and a metallic inorganic dielectric compound, the proportions of the layer being such that it is electrically conductive. The layer may be used to cause adherence of a pure metal layer directly to the siliceous base or may be used to cause adherence of a protective layer, e.g. silica, to an underlying metallic conducting layer. The metal forming the layer may be Cu, Au, Ag, Al, Pt, Rh, Ni, Fe, Co, Sn, Ti, Cd, Zn, Cr, Mg, Mn, Pd, Zr, V, Pb, As, Sb, Bi or the alloys "Monel" (Registered Trade Mark) and "Nichrome" (Registered Trade Mark). The dielectric compound employed may be: an oxide, sulphide, sulphate, selenide, selenate, telluride, tellurate or halide e.g. of Pb, Ag, Al, Mg, Zn, Cd, Sb, Bi, Hg, Cu, Pt or Pd; a sulphide of Sn, As, Fe or Ni; lithium fluoride; mixed oxides or compounds e.g. spinels. The layer may be put on the base by thermal deposition or by sputtering and the article may be baked e.g. at 600 DEG F., after the coating step. A layer with the proportion of metal and dielectric uniform throughout may be obtained (a) by simultaneous thermal deposition of metal and dielectric on to the base or (b) by the thermal evaporation of a mixture of non-oxidisable metal, e.g. Au, and an oxidisable metal, e.g. Al, or compound e.g. sulphide, on to the base followed by oxidisation of the metal or compound. A layer in which the proportion of metal and dielectric varies throughout its thickness may be obtained by thermal evaporation of a mixture of metal and dielectric compound which have different evaporation rates. Numerous examples are given of the production of articles e.g. windscreens and radar plotting screens. Specification 693,127 [Group III] is referred to.
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The layer may be used to cause adherence of a pure metal layer directly to the siliceous base or may be used to cause adherence of a protective layer, e.g. silica, to an underlying metallic conducting layer. The metal forming the layer may be Cu, Au, Ag, Al, Pt, Rh, Ni, Fe, Co, Sn, Ti, Cd, Zn, Cr, Mg, Mn, Pd, Zr, V, Pb, As, Sb, Bi or the alloys "Monel" (Registered Trade Mark) and "Nichrome" (Registered Trade Mark). The dielectric compound employed may be: an oxide, sulphide, sulphate, selenide, selenate, telluride, tellurate or halide e.g. of Pb, Ag, Al, Mg, Zn, Cd, Sb, Bi, Hg, Cu, Pt or Pd; a sulphide of Sn, As, Fe or Ni; lithium fluoride; mixed oxides or compounds e.g. spinels. The layer may be put on the base by thermal deposition or by sputtering and the article may be baked e.g. at 600 DEG F., after the coating step. A layer with the proportion of metal and dielectric uniform throughout may be obtained (a) by simultaneous thermal deposition of metal and dielectric on to the base or (b) by the thermal evaporation of a mixture of non-oxidisable metal, e.g. Au, and an oxidisable metal, e.g. Al, or compound e.g. sulphide, on to the base followed by oxidisation of the metal or compound. A layer in which the proportion of metal and dielectric varies throughout its thickness may be obtained by thermal evaporation of a mixture of metal and dielectric compound which have different evaporation rates. Numerous examples are given of the production of articles e.g. windscreens and radar plotting screens. Specification 693,127 [Group III] is referred to.</description><language>eng</language><subject>BASIC ELECTRIC ELEMENTS ; CABLES ; CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUSENAMELS ; CHEMISTRY ; CONDUCTORS ; ELECTRICITY ; GLASS ; INSULATORS ; JOINING GLASS TO GLASS OR OTHER MATERIALS ; METALLURGY ; MINERAL OR SLAG WOOL ; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING ORDIELECTRIC PROPERTIES ; SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS,MINERALS OR SLAGS ; SURFACE TREATMENT OF GLASS</subject><creationdate>1956</creationdate><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=19560912&DB=EPODOC&CC=GB&NR=757072A$$EHTML$$P50$$Gepo$$Hfree_for_read</linktohtml><link.rule.ids>230,308,780,885,25564,76547</link.rule.ids><linktorsrc>$$Uhttps://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=19560912&DB=EPODOC&CC=GB&NR=757072A$$EView_record_in_European_Patent_Office$$FView_record_in_$$GEuropean_Patent_Office$$Hfree_for_read</linktorsrc></links><search><creatorcontrib>COLBERT WILLIAM HARRY</creatorcontrib><creatorcontrib>MORGAN WILLARD LEROY</creatorcontrib><creatorcontrib>WEINRICH ARTHUR ROBERT</creatorcontrib><title>Electrically conductive article</title><description>An article having a light transmission of at least 50 per cent comprises a body of glassy siliceous material and a continuous layer on the body composed of an intimate molecular mixture of a metal and a metallic inorganic dielectric compound, the proportions of the layer being such that it is electrically conductive. The layer may be used to cause adherence of a pure metal layer directly to the siliceous base or may be used to cause adherence of a protective layer, e.g. silica, to an underlying metallic conducting layer. The metal forming the layer may be Cu, Au, Ag, Al, Pt, Rh, Ni, Fe, Co, Sn, Ti, Cd, Zn, Cr, Mg, Mn, Pd, Zr, V, Pb, As, Sb, Bi or the alloys "Monel" (Registered Trade Mark) and "Nichrome" (Registered Trade Mark). The dielectric compound employed may be: an oxide, sulphide, sulphate, selenide, selenate, telluride, tellurate or halide e.g. of Pb, Ag, Al, Mg, Zn, Cd, Sb, Bi, Hg, Cu, Pt or Pd; a sulphide of Sn, As, Fe or Ni; lithium fluoride; mixed oxides or compounds e.g. spinels. The layer may be put on the base by thermal deposition or by sputtering and the article may be baked e.g. at 600 DEG F., after the coating step. A layer with the proportion of metal and dielectric uniform throughout may be obtained (a) by simultaneous thermal deposition of metal and dielectric on to the base or (b) by the thermal evaporation of a mixture of non-oxidisable metal, e.g. Au, and an oxidisable metal, e.g. Al, or compound e.g. sulphide, on to the base followed by oxidisation of the metal or compound. A layer in which the proportion of metal and dielectric varies throughout its thickness may be obtained by thermal evaporation of a mixture of metal and dielectric compound which have different evaporation rates. Numerous examples are given of the production of articles e.g. windscreens and radar plotting screens. 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The layer may be used to cause adherence of a pure metal layer directly to the siliceous base or may be used to cause adherence of a protective layer, e.g. silica, to an underlying metallic conducting layer. The metal forming the layer may be Cu, Au, Ag, Al, Pt, Rh, Ni, Fe, Co, Sn, Ti, Cd, Zn, Cr, Mg, Mn, Pd, Zr, V, Pb, As, Sb, Bi or the alloys "Monel" (Registered Trade Mark) and "Nichrome" (Registered Trade Mark). The dielectric compound employed may be: an oxide, sulphide, sulphate, selenide, selenate, telluride, tellurate or halide e.g. of Pb, Ag, Al, Mg, Zn, Cd, Sb, Bi, Hg, Cu, Pt or Pd; a sulphide of Sn, As, Fe or Ni; lithium fluoride; mixed oxides or compounds e.g. spinels. The layer may be put on the base by thermal deposition or by sputtering and the article may be baked e.g. at 600 DEG F., after the coating step. A layer with the proportion of metal and dielectric uniform throughout may be obtained (a) by simultaneous thermal deposition of metal and dielectric on to the base or (b) by the thermal evaporation of a mixture of non-oxidisable metal, e.g. Au, and an oxidisable metal, e.g. Al, or compound e.g. sulphide, on to the base followed by oxidisation of the metal or compound. A layer in which the proportion of metal and dielectric varies throughout its thickness may be obtained by thermal evaporation of a mixture of metal and dielectric compound which have different evaporation rates. Numerous examples are given of the production of articles e.g. windscreens and radar plotting screens. Specification 693,127 [Group III] is referred to.</abstract><oa>free_for_read</oa></addata></record>
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subjects	BASIC ELECTRIC ELEMENTS CABLES CHEMICAL COMPOSITION OF GLASSES, GLAZES, OR VITREOUSENAMELS CHEMISTRY CONDUCTORS ELECTRICITY GLASS INSULATORS JOINING GLASS TO GLASS OR OTHER MATERIALS METALLURGY MINERAL OR SLAG WOOL SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING ORDIELECTRIC PROPERTIES SURFACE TREATMENT OF FIBRES OR FILAMENTS MADE FROM GLASS,MINERALS OR SLAGS SURFACE TREATMENT OF GLASS
title	Electrically conductive article
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