A new single crystal high entropy alloy with excellent high-temperature tensile property

Chen, Huaqiang; Yuan, Xiaotan; Ren, Weili; Peng, Jianchao; Ding, Biao; Zheng, Tianxiang; Yu, Jianbo; Liaw, Peter K.; Zhong, Yunbo

doi:10.1088/2053-1591/ab8491

Cited by 10 publications

(2 citation statements)

References 47 publications

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“…The tube material may also affect the dynamic response characteristics. Materials with special mechanic and thermal properties, such as functionally graded materials [71][72][73][74] and high entropy alloys [75,76], can be assessed in the future.…”

Section: Discussionmentioning

confidence: 99%

Flow structure of pressure transmission tube and its influence on unsteady pressure measuring results in compressible flow

Tong

Zhang

Yue

et al. 2021

Aerospace Science and Technology

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Section: Discussionmentioning

confidence: 99%

Flow structure of pressure transmission tube and its influence on unsteady pressure measuring results in compressible flow

Tong

Zhang

Yue

et al. 2021

Aerospace Science and Technology

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“…Therefore, the SC CuCrFeNiCo HEA, the NC CuCrFeNiCo HEA and the TN CuCrFeNiCo HEA are selected to perform MD simulations in current study with the aim of evaluating the differences in mechanical properties between the CuCrFeNiCo HEA samples at the same simulation conditions. Besides, HEA materials with SC, NC and TN structural forms have also been widely fabricated and studied using both experimental and simulation methods in recent years [25][26][27][28]. For these indepth studies, molecular dynamics (MD) simulations [29,30] are an efficient, flexible, and consistent tool that provides insight into the respective underlying physical and atomic mechanisms behind the deformation process of the materials.…”

Section: Introductionmentioning

confidence: 99%

Crack growth and fracture mechanics of CuCrFeNiCo high-entropy alloy during tension testing

Tran,

Chu,

Trinh

et al. 2024

Phys. Scr.

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In this work, the crack growth and fracture mechanics of CuCrFeNiCo high-entropy alloy (HEA) during tension process are studied through molecular dynamics simulation method. The single-crystalline, nanocrystalline, and twinned-nanocrystalline CuCrFeNiCo HEA samples with an initial crack are prepared. The influences of boundary conditions, crack length and crystallographic orientation are considered in detail. The results indicate that the phase transition from face-centered cubic (FCC) structure into hexagonal close-packed (HCP) structure and the appearance of Shockley dislocations are the majority in all samples. The dislocations appear most densely in the twinned-nanocrstalline sample and most sparsely in the single-crystalline sample. The growth of the initial crack combined with the formation and expansion of new cracks along the grain boundaries (GBs) is the determining factor in the fracture mechanics of the CuCrFeNiCo HEA samples. The deformation capacity of the samples with free boundary conditions along the y-axis is better and the plastic deformation process is longer than the samples with periodic boundary conditions along the y-axis. The tensile strength values of the CuCrFeNiCo HEA samples change significantly in the range from 2.61 GPa to 7.75 GPa when changing the simulation conditions. The von Mises stress in the grains is markedly lower than that in the GBs.

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Achieving Exceptional Strength-Ductility Synergy via Nano-precipitation Hardening in a Ni–Fe–Cr–Co–Al Alloy

Kar,

Shivam,

Srivastava

et al. 2024

Metall Mater Trans A

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A new single crystal high entropy alloy with excellent high-temperature tensile property

Cited by 10 publications

References 47 publications

Flow structure of pressure transmission tube and its influence on unsteady pressure measuring results in compressible flow

Flow structure of pressure transmission tube and its influence on unsteady pressure measuring results in compressible flow

Crack growth and fracture mechanics of CuCrFeNiCo high-entropy alloy during tension testing

Achieving Exceptional Strength-Ductility Synergy via Nano-precipitation Hardening in a Ni–Fe–Cr–Co–Al Alloy

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