SU643026A1 - Method of producing radioisotopic ionizing radiation sources - Google Patents

Description

The invention relates to nuclear technology and can be applied in the manufacture of radioisotope sources of ionizing radiation intended for use in various fields of science and caches, for example, in determining the thickness of sheet materials. Methods are known for the manufacture of radioisotope sources of ionizing radiation, based on the melting of radionuclides into the glassy, enamel, or glazing layer 1. According to this method, an enamel or glaze layer is applied to a metal or ceramic substrate, onto which a radioactive material is then deposited, which is melted during firing to obtain a radioactive glass-like coating. However, the known method is complex and requires significant expenditures on safety techniques caused by the large number of operations associated with the preparation of radioactive material: preparation of a mixture of dusty powder-like materials, cooking glass, removing it from crucibles, grinding glass to a powdery state. , glass hanging, etc. Also known is a method of manufacturing radioisotope sources of ionizing radiation, according to which radionuclides are sorbed in granulated zeolite using ion exchange, a mixture is prepared containing from 2O-50% veF.% Zeolite with 10-40% UF1O-4O% SiO2, 10-50% , and burn the mixture for 2 hours so that it melts 2. This method does not eliminate the complexity of the technology of producing sources and the high costs of safety, since after sorption of radionuclides on deolite, work with dusting radioactive substances is carried out. This is caused by the fact that the operation of fixing the radionuclides in the zeolite is first carried out, and then the resulting radioactive material is mixed with additives. 3 6 In addition, if you first prepare a mixture of zeolite with additives, and then sorb the radionuclides on the zeolite, then the additives Li-Fj BjO dissolve in the aqueous solution from which the radionuclides are extracted, resulting in a change in the composition of the mixture, the solution It is known by extraneous substances, the results of the sorption of distorted radionuclides and become irreproducible, the radionuclides from the solution are incompletely extracted. The purpose of the invention is to improve the conditions of radiation safety in the manufacture of sources. This is achieved by the fact that according to the proposed method, before sorption of jpiaflHonuclides, 6 oxides or metaborate of lead are additionally introduced into the zeolite or their combination to a weight ratio of 1: 0.125 to 1: 1 and the radioactive mixture is melted at 1OO-1200C for 5 -15 minutes. Whether radioisotope sources of ionizing radiation were produced with promethium radionuclide - 147. The source had the form of a cylinder, on one end of which there was an active part. The substrate material is porcelain. Porcelain was covered with a layer of glaze. Mixtures containing zeolite NaX, Glukhovsky clay, Rb O, Pb, O4-P O BjOj were prepared. The compositions of the mixtures, their sintering and melting modes are given in the table. The clay content in the mixture was 10-15 wt.%.

Claims (2)

Before sintering, the mixture was molded in the form of granules. The sintered pellets were stirred into a pH-5 aqueous solution containing promethium-147. 1 After fixing the -147 prod- uct, the granule was placed in a recess at the end of the floor and after roasting it was fired, as a result of which a radioactive glassy layer was formed on the substrate surface. Thus, sources with an activity of promethe -147 per surface unit were made up to 5OO mCi / cm. The main advantage of the invention is the simplified source technology. Due to this, in the manufacture of sources, the elimination of the operation with the use of nbiniHmHX p, | Dioactin W1X substances, Hi9 Preyyur smesinshan port) 11: Co-operative of serials, which requires special care because of the danger of contamination of equipment and the surrounding area with radioactive substances. Subsequent manufacturing operations for sources are also carried out without the use of dusty radioactive materials. Operations with the use of radioactive materials are reduced only to the separation of the granules from the solution and their melting on the substrate. There is no need to select a certain amount of radioactive mixture of sparks and the use of special devices for dosing powdered materials on a substrate. These tasks are resolved before working with radioactive materials. This makes it possible to manufacture sources with USE-CPISM He J OHHOT-J of the recruitment equipment. . --- .-. - ..-..- .--. NGL V 5.64302 Claim of the Invention The method of radioactive isotope ionizing radiation sources by sorption of radionuclides on a granulated zeolite and melting of a radioactive mixture, characterized in that, in order to improve the conditions of radioactive safety in the manufacture of sources, it is in the case of the generalized zone, in the case of fabrication of sources, in the case of the radiation of radioactive mixtures, in a fabrication of sources, it is in place in the case of a zone, in the case of a radioactive mixture, in the production of sources, in the presence of the radioactive mixture, in the manufacture of the sources, in the manufacture of sources, in the fabrication of sources, in the case of the radiation of the radioactive mixture, in the production of sources, he would be in place of the body, and he would be in the same place on the body zone, so, in the case of the manufacture of sources, he would be in place of the body, so, he would be in the environment, and he would be in the same zone, so, he would be in the same place on the body zone, i will be in the same zone, i am in the middle of the untreated, iodine radiation in the radioactive isotopes; oxides or metaborate i.rifyiC i "ai" dfe gJjijjr | i || gj igg jgj: p j --.... 66 lead or their combination to a weight ratio of 1: 0.125-1: 1 and lead to the melting of the radioactive mixture at 1000 OEP for 5-15 minutes. Sources of information taken into account in the examination 1. US patent Ni 3453196, cl. 204-159.22, publ. 1969. 2. US patent Nf 3262885, cl. 252-301.1, pub. 19 (36.