SU622695A1 - Thermography material - Google Patents

Description

The invention relates to the field of thermography, namely to the creation of heat-sensitive materials that can be used to copy and replicate information. The materials used for copying with heat are known. The effect of such materials is based on the fact that when heated, different parts of the layer have different perceptions for processing with a liquid solution, as a result of which graphic information is recorded. The disadvantages of the materials should include the complexity of processing at low resolution. A thermogrissive material is also known, consisting of a substrate coated with a tempering layer based on the composition of iron stearate with the catechol hexamethylene tetraamine complex 2j. A disadvantage of the known material is low resolution. The whole invention is to increase the resolution of a thermographic material. This goal is achieved by the fact that the heat-sensitive layer is made of iodine heavy metal, isolated from the group containing bismuth, lead, thallium, cadmium and silver. Thermographic material consists of a non-porous substrate (glass, quarp, mica, heat-resistant plastic, ceramics) and a temperature-sensitive iodide layer applied on it. The resolution of the heat-sensitive material, made on the basis of heavy metal iodides, is higher than Sews 100 lines / mm and is determined by the individual properties of these compounds (the size of microcrystals, the temperature range of copying), as well as the density of adherence of the original to the copy layer. Example 1. Vacuum sputtering (pressure on the order of 10) is applied to a glass substrate.

. / "

A sh

Claims (2)

"Fine singing (O, O5-O, 3 µm) of bismuth triodide .- In close contact with the tape, ordinary paper is brought with the text to be printed (sheet of newspaper, book, letter, etc.). The system of the original and the thermographic material is placed on a thermostatic lyro surface having a temperature of 70 to 150 ° C and is held for a time (3-5 minutes) sufficient for the substrate to warm up (for a 1.5 mm thick substrate). After that, the original and copy are separated. A copy is a mirror-image negative contrast image of the original. Example 2. The method for producing a thermographic material and a copy is the same as in Example 1, but 1UDID is used as the sensitive layer, while the copying temperature range is about 160-26 ° C. Example 3. Same, but as a heat-sensitive layer use thallium iodide, temperature range 190-280 ° C. Example 4. The same, but cadmium iodide is used as a sensitive layer, the temperature range is 15O-2iO ° C. Example S, Same, but silver iodide is used as a temperature-sensitive layer, the temperature range is 120-180C. Example 6. The method of obtaining a thermosensitive layer is the same as in Example 1, but using the muscovite log as a substrate. The temperature range is the same, the warm-up time is shorter. The proposed thermographic material has a much higher resolution than the materials currently used and allows you to get copies from T-graph and handwritten texts, drawings, drawings from paper, metal and other surfaces. The material allows for the sequential recording of additional information. With a transparent substrate, mines can be used for photo printing or projection. The material does not require the appearance and fixation of the image, which is maintained for at least 1 year. The invention of the thermographic material containing a non-porous substrate and a temperature-sensitive layer deposited on it, characterized in that, in order to increase the resolution of the material, the temperature-sensitive layer is made of a heavy metal iodide selected from the group containing bismuth, lead, thallium, cadmium and silver . Sources of information taken into account in the examination: 1.Patent of France No. 20О4821, cl. In 41 M, 1971. 2. Collector Modern systems for recording and reproducing images, Moscow, Art, 1972, p. 110-113.