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首页> 外文期刊>Vacuum: Technology Applications & Ion Physics: The International Journal & Abstracting Service for Vacuum Science & Technology >Gd-155/157 areal density: A model for design and fabrication of Gd2O3/316L novel neutron shielding composites
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Gd-155/157 areal density: A model for design and fabrication of Gd2O3/316L novel neutron shielding composites

机译:GD-155/157面密度:GD2O3 / 316L新型中子屏蔽复合材料的设计和制造模型

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摘要

The Monte Carlo N-Particle Code were used to design a novel Gd2O3/316L stainless steel neutron shielding composites (Gd2O3/316L NSCs). And the constitutive equation between the Gd-155/157 areal density and the neutron shielding rate was established by MCNP. When the areal density of Gd-155/157 is larger than 0.01 g/cm(2), the thermal neutron shielding rate of the composites reaches 99%. The NSCs with three weight fractions (1.5 wt %, 2.5 wt%, and 4.5 wt% Gd2O3) were successfully fabricated by spark plasma sintering. And Gd2O3 particles evenly distributed in 316L matrix. The main phases of the composite are austenite (gamma-Fe) and Gd2O3, and in addition Fe2Gd and Gd2Ni17 are present at the interface of Gd2O3 and 316L matrix particles. The debonding of the Gd2O3 particles is the main cause of material fracture.
机译:Monte Carlo N粒子代码用于设计一种新型GD2O3 / 316L不锈钢中子屏蔽复合材料(GD2O3 / 316L NSC)。 和MCNP建立了GD-155/157面积密度和中子屏蔽率之间的本构剖面方程。 当GD-155/157的面密度大于0.01g / cm(2)时,复合材料的热中子屏蔽速率达到99%。 通过火花等离子体烧结成功制造具有三个重量级分(1.5wt%,2.5wt%和4.5wt%Gd2O3)的NSC。 和Gd2O3颗粒在316L矩阵中均匀分布。 复合材料的主要相是奥氏体(γ-Fe)和Gd2O3,另外的Fe2GD和Gd2Ni17存在于Gd2O3和316L基质颗粒的界面处。 GD2O3颗粒的剥离是材料骨折的主要原因。

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