Selectively passing material and preparation method thereof

Abstract

The present invention discloses a selectively passing material and a preparation method thereof, belonging to the technical field of materials. The selectively passing material is provided with a channel used for passing of helium, the channel is formed by a release process of helium which is generated by neutron irradiation for the material. The preparation method of the selectively passing material comprises the steps of: mixing powdery metal with powdery <10>B elementary substance / compound; sintering the mixture to obtain a matrix; then performing neutron irradiation processing on the obtained matrix; and finally performing heating processing on the matrix which is subjected to the neutron irradiation processing to release the helium generated by the neutron irradiation to form the selectively passing material. According to the selectively passing material and the preparation method of the present invention, the problem of preparing a <238>Pu helium-passing plutonium-blocking material is solved, and the characteristic that <10>B reacts with neutron to generate helium is ingeniously utilized to form a specific channel for diffusion of helium atoms, excellent selectively passing performance is achieved, in addition, the condition of each step of the preparation process can be easily controlled, thereby avoiding the disadvantages of low yield and unstable quality of foreign technology, and the selectively passing material also can be used as a helium-passing window material for being popularized and applied to alpha decay isotopes besides the <238>Pu.

Description

technical field [0001] The invention relates to a selective passage material and a preparation method thereof, in particular to a helium-permeable plutonium selective passage material and a preparation method thereof, belonging to the field of material technology. Background technique [0002] 238 Pu isotope thermoelectric battery is the 238 A power source that converts Pu's α-decay heat energy into electrical energy. It has the characteristics of small size, high specific power, and high reliability. 238 The half-life of Pu is as long as 87.4 years, and its service life is far longer than that of ordinary chemical batteries and solar cells. Therefore, it has great application value in many fields such as deep space exploration, marine or polar signal collection, and weaponry. [0003] because 238 Pu is an extremely toxic radionuclide, in order to prevent 238 Pu leakage, the PuO must be ceramized 2 The material is packaged in a shock-resistant, high-temperature, and cor...