针对车载D-D加速器中子源的紧凑、轻量化屏蔽材料优化设计研究

为减小D-D加速器中子源的体积和质量，本文结合遗传算法和MCNP程序建立了一种针对快中子的优化设计紧凑、轻量化屏蔽材料的方法。基于此方法，设计得到了一系列材料样本，采用MCNP程序模拟了各材料对D-D中子的屏蔽性能，并与传统材料PB202、PE-30%B、M-L1、M-L2进行了对比。为直观比较屏蔽材料的性能，假设加速器生物屏蔽体为同轴渐缩圆柱体结构，对不同材料所需体积及质量进行了对比，结果显示，SDGa性能较好，可同时满足紧凑化与轻量化的需求。同时，对SDG3和SDG3*辐照1000 h后的活化伽马剂量率进行了评估，结果显示其活化影响可忽略。

Study on Optimization Design of Compact and Lightweight Radiation Shielding Material for Vehicle-mounted Accelerator-driven D-D Neutron Source

To minimize the size and weight of the vehicle-mounted accelerator-driven D-D neutron source, optimization of compact and lightweight radiation shielding material for the fast neutrons was carried out, which employed genetic algorithms and the MCNP code. Based on this method, a series of material samples were designed and the shielding performance was compared with that of traditional materials such as PB202, PE-30%B, M-L1 and M-L2 for the D-D neutron by MCNP. To compare the shielding performance conveniently, both of the needed volume and weight were compared while assuming the shielding as a coaxial tapered cylinder. The results show that the SDGa can satisfy the requirements of lightweight and compact simultaneously. At the same time, the activation gamma dose rates of SDG3 and SDG3* after 1 000 h irradiation were evaluated, and the results show that the activation can be neglected.