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Radiation damage in nanostructured materials
Materials subjected to high dose irradiation by energetic particles often experience severe
damage in the form of drastic increase of defect density, and significant degradation of their …
damage in the form of drastic increase of defect density, and significant degradation of their …
Defect-interface interactions
Nanostructured materials contain an extremely high density of interfaces. The properties of
these materials when exposed to extreme conditions of radiation dose, stress, deformation …
these materials when exposed to extreme conditions of radiation dose, stress, deformation …
[HTML][HTML] Radiation damage tolerant nanomaterials
Designing a material from the atomic level to achieve a tailored response in extreme
conditions is a grand challenge in materials research. Nanostructured metals and …
conditions is a grand challenge in materials research. Nanostructured metals and …
Strength and plasticity of nanolaminated materials
The mechanical behavior of nanolaminates is dominated by interfaces that act as sources,
barriers, and preferred sites for storage and dynamic recovery of glide dislocations. In this …
barriers, and preferred sites for storage and dynamic recovery of glide dislocations. In this …
Design of radiation tolerant materials via interface engineering
W Han, MJ Demkowicz, NA Mara, E Fu, S Sinha… - 2013 - dspace.mit.edu
A novel interface engineering strategy is proposed to simultaneously achieve superior
irradiation tolerance, high strength, and high thermal stability in bulk nanolayered …
irradiation tolerance, high strength, and high thermal stability in bulk nanolayered …
Effect of grain boundary character on sink efficiency
The dependence of the width of void-denuded zones (VDZs) on grain boundary (GB)
characters was investigated in Cu irradiated with He ions at elevated temperature …
characters was investigated in Cu irradiated with He ions at elevated temperature …
Probing grain boundary sink strength at the nanoscale: Energetics and length scales of vacancy and interstitial absorption by grain boundaries in -Fe
The energetics and length scales associated with the interaction between point defects
(vacancies and self-interstitial atoms) and grain boundaries in bcc Fe was explored …
(vacancies and self-interstitial atoms) and grain boundaries in bcc Fe was explored …
Controlling radiation damage
The ability of a material to resist radiation damage is determined by how well the
microstructure can remove vacancies and interstitial defects in equal numbers. However, the …
microstructure can remove vacancies and interstitial defects in equal numbers. However, the …
Interface structure and radiation damage resistance in Cu-Nb multilayer nanocomposites
We use atomistic simulations to show that upon removal or insertion of atoms, misfit
dislocations in Cu-Nb interfaces shift between two adjacent planes, forming pairs of …
dislocations in Cu-Nb interfaces shift between two adjacent planes, forming pairs of …
High strength and thermal stability of bulk Cu/Ta nanolamellar multilayers fabricated by cross accumulative roll bonding
Abstract Bulk Cu/Ta nanolamellar multilayers with an individual layer thickness from several
micrometers down to 50 nm were successfully fabricated via a combination of cross …
micrometers down to 50 nm were successfully fabricated via a combination of cross …