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Open AccessAuthor Correction: Proton irradiation-decelerated intergranular corrosion of Ni-Cr alloys in molten salt
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Open AccessOne dimensional wormhole corrosion in metals
Corrosion is a ubiquitous failure mode of materials. Often, the progression of localized corrosion is accompanied by the evolution of porosity in materials previously reported to be either three-dimensional or...
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Open AccessCoupled effect of water absorption and ion transport in hydrated latex anti-corrosion coatings
Water-based anti-corrosion coatings, which are environmentally-friendly replacements for organic solvent-based coatings, do not perform well enough for use in the most challenging corrosion environments. The h...
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Open Access3D Printed frames to enable reuse and improve the fit of N95 and KN95 respirators
In response to supply shortages caused by the COVID-19 pandemic, N95 filtering facepiece respirators (FFRs or “masks”), which are typically single-use devices in healthcare settings, are routinely being used f...
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Open AccessProton irradiation-decelerated intergranular corrosion of Ni-Cr alloys in molten salt
The effects of ionizing radiation on materials often reduce to “bad news”. Radiation damage usually leads to detrimental effects such as embrittlement, accelerated creep, phase instability, and radiation-alter...
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Reference Work Entry In depth
Modeling of Radiation Damage in Materials: Best Practices and Future Directions
In this section of the Handbook of Materials Modeling, modern methods to model radiation damage in materials are considered. This introductory chapter puts the topic into context, briefly overviews the multiscale...
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Living Reference Work Entry In depth
Experimental Validation of Models: In Situ TEM for Radiation Damage
In situ transmission electron microscopy (TEM) is a powerful technique for validating dynamic models of radiation-produced defects in metals. In this chapter, we examine key advances from the last ten years in i...
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Reference Work Entry In depth
Experimental Validation of Models: In Situ TEM for Radiation Damage
In situ transmission electron microscopy (TEM) is a powerful technique for validating dynamic models of radiation-produced defects in metals. In this chapter, we examine key advances from the last ten years in in...
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Reference Work Entry In depth
More Efficient and Accurate Simulations of Primary Radiation Damage in Materials with Nanosized Microstructural Features or Ion Beams
Primary radiation damage, resulting from the direct ballistic collisions of energetic particles with matter, is the starting point for all of radiation damage. It has traditionally been simulated using binary ...
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Listening to Radiation Damage In Situ: Passive and Active Acoustic Techniques
Knowing when, why, and how materials evolve, degrade, or fail in radiation environments is pivotal to a wide range of fields from semiconductor processing to advanced nuclear reactor design. A variety of metho...
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Transient grating spectroscopy: An ultrarapid, nondestructive materials evaluation technique
Structure–property relationships are the foundation of materials science and are essential for predicting material response to driving forces, managing in-service material degradation, and engineering material...
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Living Reference Work Entry In depth
Modeling of Radiation Damage in Materials: Best Practices and Future Directions
In this section of the Handbook of Materials Modeling, modern methods to model radiation damage in materials are considered. This introductory chapter puts the topic into context, briefly overviews the multiscale...
-
Living Reference Work Entry In depth
More Efficient and Accurate Simulations of Primary Radiation Damage in Materials with Nanosized Microstructural Features or Ion Beams
Primary radiation damage, resulting from the direct ballistic collisions of energetic particles with matter, is the starting point for all of radiation damage. It has traditionally been simulated using binary ...
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The influence of reactor irradiation on the oxidation state of tin in Zr-0.76Fe-1.6Sn
The oxidation states of minor alloying elements in Zircaloys often determine their resistance to corrosion, especially in nuclear reactors. In particular, tin is of interest because of its near ubiquitous use ...
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Open AccessIM3D: A parallel Monte Carlo code for efficient simulations of primary radiation displacements and damage in 3D geometry
SRIM-like codes have limitations in describing general 3D geometries, for modeling radiation displacements and damage in nanostructured materials. A universal, computationally efficient and massively parallel ...
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Applications of Transient Grating Spectroscopy to Radiation Materials Science
The ability to study radiation damage in situ will directly enable the rapid innovation and qualification of materials for nuclear applications by allowing direct observation of the effects of radiation damage...
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Multiscale materials modelling at the mesoscale
The challenge to link understanding and manipulation at the microscale to functional behaviour at the macroscale defines the frontiers of mesoscale science.