RU2223561C2 - Method for manufacturing three-layer tubular fuel elements - Google Patents

Abstract

FIELD: nuclear power engineering; manufacture of dispersed-core fuel elements. SUBSTANCE: fuel elements of this type are manufactured in the form of round- or polygonal-section tubes having internal working layer (core) and bilateral protective cladding of corrosion-resistant material such as aluminum alloy. Proposed method for manufacturing such fuel elements includes placement of core billet made of uranium dioxide dispersed in aluminum matrix into aluminum alloy cladding, calibration, joint hot molding, drawing, and heat treatment; the latter is conducted prior to drawing at 420-460 C for 2-2.5 h followed by joint cooling down at a rate not over 30 C/h. Such procedure eliminates natural aging effect of matrix in cermet part which provides for good results in further plastic deformation of cermet products. EFFECT: improved quality of fuel elements. 1 cl, 2 tbl

Description

 The invention relates to nuclear energy and may find application in the manufacture of three-layer tubular fuel elements (fuel elements) with a dispersion type core. Fuel elements of this type are made in the form of pipes of circular or multifaceted cross-section, consisting of an inner working layer (core) and a two-sided protective sheath made of a corrosion-resistant material, for example, an aluminum alloy.

 A known method of manufacturing three-layer fuel rods (AG Samoilov, AI Kashtanov. Dispersion fuel rods. In two volumes. Volume 1. M .: Energoizdat, 1982, S. 199-205), including the placement of the core blank in the shell, calibration , joint hot pressing, drawing and heat treatment.

 The disadvantage of this method is that the cladding of the fuel rods undergoes aging, its hardness increases, and therefore, the quality of the fuel rods decreases.

 The closest in technical essence and the achieved result - the prototype is a method of manufacturing a three-layer tubular fuel elements (Yu. N. Sokursky. Uranium and its alloys. M: Atomizdat, 1971, S. 421-423, 432-434), including the placement of the workpiece core in the shell, calibration, joint hot pressing, drawing and heat treatment.

 The disadvantage of this method is that the cladding of the fuel rods undergoes aging, its hardness increases, and therefore, the quality of the fuel rods decreases due to cracking of the cladding.

 The objective of the invention is to improve the quality of three-layer fuel elements.

The problem is solved in that in the method of manufacturing a three-layer tubular fuel elements, including the placement of a core blank made of uranium dioxide dispersed in an aluminum matrix in an aluminum alloy shell, calibration, joint hot pressing, drawing and heat treatment, according to the invention, the heat treatment is carried out before drawing at a temperature of 420-460 ^o C for 2-2.5 hours, followed by cooling at a speed of not more than 30 ^o C / h

 The specified set of features is new and has an inventive step, since the heat treatment before drawing gives the material of the shell plasticity, reduces hardness and eliminates the effect of natural aging, i.e. shell material does not harden in time. This allows the drawing of products to be carried out regardless of the time of the heat treatment and eliminates the need for heat treatment between the stages of drawing.

 Under these conditions, the effect of natural aging of the matrix in the ceramic-metal product is excluded, which is positively reflected in further operations associated with plastic deformation of ceramic-metal products.

 The method is as follows.

The billet of a core made of uranium dioxide dispersed in an aluminum matrix is placed in an aluminum alloy shell, calibrated and hot pressed together, after which the three-layer pipe is subjected to heat treatment at a temperature of 420-460 ^o C for 2-2.5 hours, then cooled together with the furnace at a speed of 30 ^o C / h

 Example 1. Table 1 presents the prototype method for producing three-layer tubular fuel elements.

During heat treatment, including heating at 480 ^o C, holding for 1-1.5 hours and cooling in air, the unstable thermodynamic state of the aluminum alloy of the shell and the aluminum matrix is obtained, which leads to their further natural aging. In this regard, there is a need for heat treatment before each drawing, and immediately after it.

Example 2. Table 2 presents the proposed method, including heating at a temperature of 420-460 ^o C, holding for 2-2.5 hours and slow joint cooling with the furnace at a speed of not more than 30 ^o C / h Using this technology, a stable thermodynamic state of the aluminum alloy of the shell and the aluminum matrix is obtained, which eliminates their further aging.

 Thus, the proposed method allows to improve the quality of the three-layer fuel elements, to exclude cracking of the shell, to give it ductility and to exclude the effect of natural aging.

Claims (1)

A method of manufacturing a three-layer tubular fuel elements, including the placement of a core blank made of uranium dioxide dispersed in an aluminum matrix in an aluminum alloy shell, calibration, joint hot pressing, drawing and heat treatment, characterized in that the heat treatment is carried out before drawing at a temperature of 420- 460 ° C for 2-2.5 hours, followed by cooling at a rate of not more than 30 ° C / h.

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