χ(3) components of single-crystalline vanadyl phthalocyanine film

Hydrogen plays a significant role in the microstructure evolution and macroscopic deformation of materials, causing swelling and surface blistering to reduce service life. In the present work, the atomistic mechanisms of hydrogen bubble nucleation in vanadium were studied by first-principles calculations. The interstitial hydrogen atoms cannot form significant bound states with other hydrogen atoms in bulk vanadium, which explains the absence of hydrogen self-clustering from the experiments. To find the possible origin of hydrogen bubble in vanadium, we explored the minimum sizes of a vacancy cluster in vanadium for the formation of hydrogen molecule. We show that a freestanding hydrogen molecule can form and remain relatively stable in the center of a 54-hydrogen atom saturated 27-vacancy cluster.

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Current development of body-centered cubic high-entropy alloys for nuclear applications

Shi

Lei

et al. 2021

Tungsten

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Synergistic strengthening of Al–SiC composites by nano-spaced SiC-nanowires and the induced high-density stacking faults

Zhou

et al. 2023

Composites Part B: Engineering

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Effect of local chemical order on the irradiation-induced defect evolution in CrCoNi medium-entropy alloy

Zhang

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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High- (and medium-) entropy alloys have emerged as potentially suitable structural materials for nuclear applications, particularly as they appear to show promising irradiation resistance. Recent studies have provided evidence of the presence of local chemical order (LCO) as a salient feature of these complex concentrated solid-solution alloys. However, the influence of such LCO on their irradiation response has remained uncertain thus far. In this work, we combine ion irradiation experiments with large-scale atomistic simulations to reveal that the presence of chemical short-range order, developed as an early stage of LCO, slows down the formation and evolution of point defects in the equiatomic medium-entropy alloy CrCoNi during irradiation. In particular, the irradiation-induced vacancies and interstitials exhibit a smaller difference in their mobility, arising from a stronger effect of LCO in localizing interstitial diffusion. This effect promotes their recombination as the LCO serves to tune the migration energy barriers of these point defects, thereby delaying the initiation of damage. These findings imply that local chemical ordering may provide a variable in the design space to enhance the resistance of multi-principal element alloys to irradiation damage.

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The effect of interstitial carbon atoms on defect evolution in high entropy alloys under helium irradiation

Shi

Yang

et al. 2022

Acta Materialia

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Zhengxiong Su

Distinct point defect behaviours in body-centered cubic medium-entropy alloy NbZrTi induced by severe lattice distortion

Enhancing the radiation tolerance of high-entropy alloys via solute-promoted chemical heterogeneities

Radiation-assisted chemical short-range order formation in high-entropy alloys

Relationship between the Behavior of Hydrogen and Hydrogen Bubble Nucleation in Vanadium

Current development of body-centered cubic high-entropy alloys for nuclear applications

Synergistic strengthening of Al–SiC composites by nano-spaced SiC-nanowires and the induced high-density stacking faults

Effect of local chemical order on the irradiation-induced defect evolution in CrCoNi medium-entropy alloy

The effect of interstitial carbon atoms on defect evolution in high entropy alloys under helium irradiation

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