RADIATION PROTECTION COMPOSITE MATERIAL AND METHOD FOR THE PRODUCTION THEREOF (TWO VARIANTS)

RADIATION PROTECTION COMPOSITE MATERIAL AND METHOD FOR THE PRODUCTION THEREOF (TWO VARIANTS)

The invention relates to protection against ionising radiation. The inventive radiation composite material comprises a matrix and filler in the form of a dispersed mixture. The mass of said dispersed mixture corresponds to peak values of a mass radiation absorption factor of a reference material whi...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: YAKUSHKIN, MIKHAIL ALEXANDROVICH, TKACHENKO, VLADIMIR IVANOVICH, KABARDIN, NIKOLAY KONSTANTINOVICH, MEZHUYEV, NIKOLAY NIKOLAYEVICH, ALEXEYEV, YURI SERGEYEVICH, DZHUR, EUGENIE ALEXEYEVICH, UDOD, VLADIMIR VLADIMIROVICH, KRIKUN, YURI ALEXANROVICH, KUCHMA, LEONID DANILOVICH
Format: Patent
Sprache:eng ; fre ; rus
Schlagworte:
ARTIFICIAL STONE
CEMENTS
CERAMICS
CHEMISTRY
COMPOSITIONS THEREOF, e.g. MORTARS, CONCRETE OR LIKE BUILDINGMATERIALS
CONCRETE
DECONTAMINATION ARRANGEMENTS THEREFOR
LIME, MAGNESIA
METALLURGY
NUCLEAR ENGINEERING
NUCLEAR PHYSICS
PHYSICS
PROTECTION AGAINST X-RADIATION, GAMMA RADIATION, CORPUSCULARRADIATION OR PARTICLE BOMBARDMENT
REFRACTORIES
SLAG
TREATING RADIOACTIVELY CONTAMINATED MATERIAL
TREATMENT OF NATURAL STONE
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Beschreibung
Zusammenfassung:The invention relates to protection against ionising radiation. The inventive radiation composite material comprises a matrix and filler in the form of a dispersed mixture. The mass of said dispersed mixture corresponds to peak values of a mass radiation absorption factor of a reference material which is pre-produced for every physically treated compound. The mass of the dispersed mixture in the material is defined by an equation m=(0.001-0.34)M, wherein m is the mass of the dispersed mixture and M is the total mass of the material having predetermined parameters. The inventive method for producing said composite material consists in introducing the dispersed material into the matrix and in exposing it to the action of processing parameters. Said dispersed filler is embodied in the form of ultradispersed particles whose mean size is equal to 0.1 mkm and specific surface to 0.3-200 m /g and which is used in the quantity equal to or less than 1.5 % of the specific mass of the mixture. Said method for producing radiation protection material is characterised in that the reference material is exposed to irradiation prior to and after the physical treatment thereof. Afterwards, curves are drawn and an intercorrelation radiation distribution factor is defined, the mass of the filler being calculated. The use of the inventive material ensures an efficient protection against ionising radiation. L'invention relève du domaine de la protection contre le rayonnement ionisant. Le matériau composite de protection contre le rayonnement selon l'invention contient une matrice et une charge sous forme de dispersion. La masse de la dispersion correspond aux valeurs de crête du coefficient massique d'absorption du rayonnement par un matériau de référence, ledit coefficient ayant été préalablement obtenu pour chaque composition ayant fait l'objet d'un traitement physique. La masse de la dispersion contenue dans le matériau est régie par la relation : m=(0,001-0,34)M, dans laquelle m représente la masse de la dispersion, et M représente la masse totale du matériau avec des paramètres donnés. La mise en oeuvre du procédé de production d'un matériau composite selon l'invention consiste à introduire dans la matrice une charge dispersée et à soumettre le mélange à l'action de paramètres technologiques. La charge dispersée se présente sous forme de particules ultra-dispersées dont la taille moyenne est de 0,1 micromètre, dont la surface spécifique est comprise entre 0,3 et 2000 m /g,