neutronresistant

Neutronresistant is an adjective used in materials science to describe materials, components, or systems designed to withstand neutron radiation with minimal degradation. In nuclear environments, neutrons cause displacement damage, transmutation, swelling, embrittlement, and long-term activation. Neutronresistant materials aim to reduce these effects through low activation, radiation-tolerant microstructures, and high-temperature resilience.

Damage mechanisms include atomic displacements creating defects, helium and hydrogen production from transmutation, and irradiation-induced creep

Assessment of neutron resistance uses metrics such as displacement-per-atom (dpa), swelling, hardening, embrittlement, and material activation

Applications span nuclear reactors (fission and future fast reactors), fusion devices, and radiation-tolerant electronics and shielding.

Research directions include development of low-activation materials, oxide dispersion strengthened steels, ceramic-matrix composites, high-entropy alloys, and