Thermally insulating GdBO3 ceramics with neutron shielding performance

Abstract

AbstractThere is an urgent demand for multifunctional insulation materials with neutron shielding ability that can be particularly used in the nuclear energy system. GdBO3 ceramics are one of the candidates for such materials. In this study, GdBO3 ceramics were successfully synthesized using a simple solid‐phase method. The effect of boric acid content on the micro and macro properties of GdBO3 ceramics was explored. The experimental results indicate that the thermal conductivity of the resulting GdBO3 ceramics ranged from .12 to .68 W/(m⋅K), and lower thermal conductivity was achieved with smaller pore size and higher apparent porosity of the sintered product. Moreover, the mechanical properties of the samples in multiple temperature ranges can be improved by increasing boric acid content. Finally, neutron shielding permeability study, performed on the samples in different thicknesses, reveal that GdBO3 ceramics possessed excellent neutron shielding performance (NSP). The obtained results manifest that GdBO3 ceramics with outstanding heat insulation and NSP have a potential application in a nuclear reactor.