Abstract
AbstractNeutron radiation exposure is one of the main challenges faced during space missions. There is a critical need for advanced lightweight radiation shielding materials. Two-dimensional (2D) boron nitride nanoplatelets (BNNP) are excellent candidates for polymer matrix nanofillers due to their superior neutron shielding and thermal and mechanical properties. Furthermore, the 2D material anisotropic behavior unlocks the potential for composite property tailoring. This study fabricated ultra-lightweight lamellar BNNP foams (density 0.05 g cm–3 and 97.5% porous) via freeze-drying processing. The neutron shielding effectiveness or mass absorption coefficient of the BNNP foams with walls perpendicular to the direction of the radiation source was 14.47 cm2 g–1, while that of the foam with parallel configuration was only 8.51 cm2 g–1. The orientation-dependent neutron radiation shielding properties were modeled using the Beer-Lambert law for porous composite materials. The BNNP foam in this study has the potential to benefit advanced tailorable radiation shielding technologies for future aerospace missions.
Funder
National Aeronautics and Space Administration
Publisher
Springer Science and Business Media LLC
Reference33 articles.
1. Park, J., Kim, M., Choi, S. & Sun, J.-Y. Self-healable soft shield for γ-ray radiation based on polyacrylamide hydrogel composites. Sci. Rep. 10, 21689 (2020).
2. Zhang, S. et al. First measurements of the radiation dose on the lunar surface. Sci. Adv. 6, eaaz1334 (2020).
3. Thibeault, S. A. et al. Nanomaterials for radiation shielding. MRS Bull. 40, 836–841 (2015).
4. Hirst, C. A. et al. Revealing hidden defects through stored energy measurements of radiation damage. Sci. Adv. 8, eabn2733 (2022).
5. Thibeault, S. A. et al. Radiation shielding materials containing hydrogen, boron, and nitrogen: Systematic computational and experimental study - Phase I., No. HQ-E-DAA-TN33851 (2012).
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