Mechanical Tensile Response of Ni–Graphene Nanocomposites in Hydrogen-Irradiation-Coupled Environments Using Molecular Dynamics Simulations
Tonghe Liu, Xiaoting Yuan, Hai Huang

TL;DR
This paper uses simulations to study how Ni-graphene composites behave under nuclear reactor conditions involving hydrogen and radiation.
Contribution
The study introduces a novel evaluation of Ni–graphene nanocomposites under combined hydrogen and irradiation conditions using molecular dynamics simulations.
Findings
NGNCs show serrated stress–strain curves due to interfacial slip under mechanical loading.
Low hydrogen levels increase Young’s modulus, but higher concentrations and irradiation degrade strength more in NGNCs than in single-crystal nickel.
NGNCs exhibit enhanced thermal stability but increased strain rate sensitivity compared to traditional materials.
Abstract
In Gen-IV nuclear reactors, structural materials must endure unprecedented levels of neutron irradiation and hydrogen exposure, posing significant challenges for traditional Ni-based alloys. This study evaluates Ni–graphene nanocomposites (NGNCs) as a promising solution, leveraging their inherent radiation tolerance and hydrogen diffusion suppression. Using molecular dynamics simulations, we investigate how Ni/graphene interfaces influence mechanical properties under combined hydrogen permeation and displacement damage. Key parameters, such as hydrogen concentration, displacement damage level, strain rate, and temperature, are systematically varied to assess their impact on stress–strain behavior (including Young’s modulus and tensile strength), with comparisons to single-crystal nickel. Our findings reveal that NGNCs exhibit distinct mechanical responses characterized by serrated…
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Taxonomy
TopicsFusion materials and technologies · Microstructure and mechanical properties · Advanced materials and composites
