Evaluation of Radiation Response in CoCrFeCuNi High-Entropy Alloys

Wang, Yang; Zhang, Kun; Feng, Yihui; Li, Yansen; Tang, Weiqi; Wei, Bingchen

doi:10.3390/e20110835

Cited by 21 publications

(7 citation statements)

References 45 publications

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“…On the other hand, Wang et al [308] noticed a reduction in crystallinity resulted from He ion irradiation on CoCrFeCuNi alloy. Yang et al [298] observed that precipitation of the L12 phase was suppressed due to irradiation-induced ballistic mixing at temperatures less than or equal to 500 • C. Additionally, precipitation of the B2 phase was favored at 650 • C due to improved diffusion by irradiation.…”

Section: Phase Stabilitymentioning

confidence: 99%

Recent Advances in Additive Manufacturing of High Entropy Alloys and Their Nuclear and Wear-Resistant Applications

Sonal

Lee

2021

Metals

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Alloying has been very common practice in materials engineering to fabricate metals of desirable properties for specific applications. Traditionally, a small amount of the desired material is added to the principal metal. However, a new alloying technique emerged in 2004 with the concept of adding several principal elements in or near equi-atomic concentrations. These are popularly known as high entropy alloys (HEAs) which can have a wide composition range. A vast area of this composition range is still unexplored. The HEAs research community is still trying to identify and characterize the behaviors of these alloys under different scenarios to develop high-performance materials with desired properties and make the next class of advanced materials. Over the years, understanding of the thermodynamics theories, phase stability and manufacturing methods of HEAs has improved. Moreover, HEAs have also shown retention of strength and relevant properties under extreme tribological conditions and radiation. Recent progresses in these fields are surveyed and discussed in this review with a focus on HEAs for use under extreme environments (i.e., wear and irradiation) and their fabrication using additive manufacturing.

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Section: Phase Stabilitymentioning

confidence: 99%

Recent Advances in Additive Manufacturing of High Entropy Alloys and Their Nuclear and Wear-Resistant Applications

Sonal

Lee

2021

Metals

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“…As a result, HEAs have shown excellent performance in radiation resistance, which provides new ideas for the development of nuclear materials. CoCrFeCuNi alloys were irradiated with a 100 keV He + ion beam by Wang et al [ 49 ]. It was indicated that Cu-rich phases were favorable sites for the nucleation and gathering of He bubbles.…”

Section: Physical and Chemical Propertiesmentioning

confidence: 99%

New Advances in High-Entropy Alloys

Zhang

2020

Entropy

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“…Wang et al [29] studied the irradiation of CoCrCuFeNi HEA under different dose of He+ ion beam. Kumar et al [30] investigate the radiation resistance of CrFeMnNi and FeCrNi.…”

Section: Introductionmentioning

confidence: 99%

“…23,24 This could be attributed to their lattice distortion and sluggish diffusion effects, 25–28 which reduce the migration and diffusion of defects. Wang et al 29 studied the irradiation of CoCrCuFeNi HEA under different doses of He + ion beams. Kumar et al 30 investigated the radiation resistance of CrFeMnNi and FeCrNi.…”

Section: Introductionmentioning

confidence: 99%