SU857201A1 - Paste-tigleo graph - Google Patents

Description

(54) PASTA TIEGLOGRAPH FOR APPLICATION OF RECORDINGS

Claims (2)

The invention relates to the production of high-temperature paste-crucible graphs for applying fire-resistant and decorative inscriptions on ceramic (TNPI, glasses, other metal vessels and other surfaces used in the temperature range 300-600 ° C, and can be used for applying non-refractory wood inscriptions ( painted and unpainted surfaces for drawing on paper and other materials. A pencil (glass-grapher) for writing on glass {1, which has the following composition is known: 9 parts by weight stearin, beef tallow, wax, 6 parts by weight iron Urik, 4 parts by weight of potash. The disadvantage of this pencil is that it contains a small amount of iron red lead (31.66% by weight) and therefore, at high temperatures, after burning organic substances, the mixture turns out to be fuzzy or disappears altogether. the technical essence and the achieved result to the proposed is a paste-tigleograph for applying refractory inscriptions 2, containing, wt.%: Dyeing metal oxide 30-60 Quartz sand1-3 Binder 37-52 Bourne Acid2-2 The disadvantage of the known tigleograph is what it does not give a clear inscription on the surface of a dark color, since after the binder is applied, the inscription remains black on the surface and if it is clearly visible: on white or on black (or dark) surfaces (the inscription is not sufficiently visible). In addition, the well-known tigleograph is not suitable for applying clear fire-resistant and decorative inscriptions on metal and wood surfaces, since it does not wet the indicated surfaces poorly and does not give decorative inscriptions. However, the crucible is not suitable for inscribing at temperatures below 500 ° C. 38 The goal is achieved by the fact that the paste-crucible for applying inscriptions, including binder and clay sand, as a binder contains paraffin or rosin and additionally contains tin oxide and aluminum powder in the following ratio of components, wt.%: Binder 28, 5-55.5 Quartz sand1-3 Tin oxide 0.5-1.5 Aluminum powder40-70 A tchgleograf is made as follows: In heated heating, a metallic aluminum powder is added to heated to 150-200 ° C in heating mode. The resulting mass is carefully moved. Then, in this mode, crushed quartz sand and powdered tin oxide are added. From the resulting mass, a crucible can be made in the form of a pencil, covered with metal foil or other decorative material. The crucible can be used both for applying refractory, and for applying decorative inscriptions and drawings on ceramic, porcelain, metal, wood and other surfaces, for drawing on paper, etc. Refractory inscriptions are maintained at temperatures of 300-600 ° C. At these temperatures, the paraffin burns out and a metallic luster appears on the surface of the product. Example 1. A crucible is made of the following composition, wt.%: Aluminum metal powder Paraffin Quartz sand Tin oxide To heated to liquefied paraffin in the amount of 45.5 g, added in small portions of aluminum powder (manufactured industry, for example SAP - sintered aluminum powder - a mixture of aluminum and its oxide with a content of the last 6-20%, particle size - 50-500 microns) in an amount of 40 g. The resulting mass is carefully moved. Then, in the same mode, crushed quartz sand (1 g) and tin oxide, (1.5 g) are added. A crucible with a mm, a length of 90 mm, with undercut edges and boped with metal foil or other decorative material is made from the resulting mass. With a crucible, inscriptions with metallic luster are applied to ceramic metallic and other surfaces of any color. The inscriptions applied are sharp on dark and black surfaces. At the same time, the light reflection of the inscriptions in the visible region of the spectrum is about 25-30%. The inscriptions are applied with a tigleograph at any temperatures up to 600 ° C, the ignition of the change in the color of the inscription begins at 00 ° C and ends at 1350-1450 ° C. The crucigraph is silver in color and, after forming, is characterized by a decorative external view. EXAMPLE 2 A crucible-detector of the following composition is made, wt.%: Metal aluminum powder 70 Paraffin28.5 Quartz sand1 Tinoxide 0.5 V heated to 200 ° C liquefied paraffin in the amount of 28.5 g, in small portions 70 g of aluminum powder and the resulting mass is thoroughly mixed, then crushed quartz sand (1 g) and tin oxide (0.5 g) are added. The resulting mass is made into a pencil-shaped crucible with a mm and a length of 15 mm, wrapped with metal foil or another; decorative material. Example 3. A crucible is made of the following composition, wt.%: Metal aluminum powder 60 Paraffin37 Quartz sand2 Tin oxide 1 In a heated to 200 ° C, 37 g of liquefied paraffin in small portions add aluminum powder in an amount of 60 g and thoroughly mix the resulting mass then crushed quartz sand (2 g) and tin oxide (I g) are added. From the resulting mass, by forming (followed by cooling), a tigleograph is made in the form of a pencil (for example, with a length of 15 mm). The proposed crucible is applied inscriptions fireproof on ceramic, porcelain and other surfaces. The lower limit of applicability is. Example 4. A crucible graph of the following composition was made, wt.%: Aluminum metal powder 47.5 Rosin50 Quartz sand-1.5 Tin oxide 1 In a heated to 300 ° C, liquefied rosin in the amount of 50 g in small portions add aluminum powder in the amount of 47 , 5 g and the resulting mass is thoroughly mixed, then crushed quartz sand (1.5 g) and tin oxide (1 g) are added. 585 A crucible in the form of a pencil with mm and IS mm length, wrapped with metal foil or other decorative material is made of the resulting mass. The lower limit of applicability of the crucible is 250 ° C. Thus, a titleograph can be applied over the ceramic, porcelain, metal and other surfaces. , draw on paper and other materials (but clear inscriptions are applied to dark and black surfaces). The light reflection of the metallic inscription in the visible region of the optical spectrum is 25-30%. The lower limit of the temperature applicability of the paste is 300 ° C. At temperatures of the order of 600 ° C, the metallic materials are burned to the surface and do not fade, but the color changes to black. DETAILED DESCRIPTION OF THE INVENTION Paste-tigleograf for printing, including binder and quartz sand. It is perfect because, in order to “opt-out” the application of “yummy inscriptions” on wooden and metal surfaces, as well as on dark pvet surfaces at temperatures below 500 ° C, it contains paraffin or rosin and, in addition, tin oxide, as a binder. . aluminum powder at the next component discharge, wt.%: Szumnzee28,5-55,5 Quartz sand1-3 Sulfur oxide0,5-13 Aluminum pu; f40-70 Sources of information taken into account during the examination 1. Chemist's Handbook. L. Khimi, 1971 t. 1, p. 1052. 2. USSR author's certificate number 630909, l. C 09 O 13, 00, 1978 (prototype).