Mechanical behavior of the HfNbZrTi high entropy alloy after ion irradiation based on micro-pillar compression tests

Mechanical behavior of the HfNbZrTi high entropy alloy after ion irradiation based on micro-pillar compression tests

•Micropillar compression test has application on HfNbZrTi high entropy alloy, and show the irradiation strengthening mechanism, which is less pronounced in the low dose regime.•The examined HEA alloy exhibits superior radiation resistance on yield strength compared to conventional nuclear structural...

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Veröffentlicht in:Journal of alloys and compounds 2022-02, Vol.892, p.162043, Article 162043
Hauptverfasser: Peng, Shengyuan, Jin, Ke, Yi, Xin, Dong, Zhaohui, Guo, Xun, Liu, Ying, Cheng, Yangyang, Jia, Nannan, Duan, Huiling, Xue, Jianming
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Sprache:eng
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Alloys
Compression tests
Compressive strength
Entropy
High entropy alloy
High entropy alloys
Ion irradiation
Irradiation
Mechanical properties
Micropillar compression
Stainless steels
Strengthening
Structural stability
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container_start_page 162043
container_title Journal of alloys and compounds
container_volume 892
creator Peng, Shengyuan
Jin, Ke
Yi, Xin
Dong, Zhaohui
Guo, Xun
Liu, Ying
Cheng, Yangyang
Jia, Nannan
Duan, Huiling
Xue, Jianming
description •Micropillar compression test has application on HfNbZrTi high entropy alloy, and show the irradiation strengthening mechanism, which is less pronounced in the low dose regime.•The examined HEA alloy exhibits superior radiation resistance on yield strength compared to conventional nuclear structural materials. High entropy alloys (HEAs) have exhibited excellent irradiation resistance regarding structure stability. However, limited knowledge has been available on the tendency of mechanical properties of HEAs with body-centered cubic structures after ion irradiation. In this study, the evolution of mechanical properties of the HfNbZrTi irradiated with 3 MeV C ions is studied based on micropillar compression tests. The yield strength increases almost linearly from 974 to 2068 MPa with increasing irradiation doses up to 0.98 dpa. The correlation between the mechanical and microstructural changes agrees well with the prediction of Δδy=αMGb(ND)12, indicating a similar strengthening mechanism with conventional alloys. Nonetheless, the irradiation strengthening effect in this alloy is less pronounced in the low dose regime, and the saturation is postponed, compared with the stainless steel and the 3d metal high entropy alloys with face-centered cubic structures, exhibiting promising irradiation resistance regarding mechanical properties.
doi_str_mv 10.1016/j.jallcom.2021.162043
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High entropy alloys (HEAs) have exhibited excellent irradiation resistance regarding structure stability. However, limited knowledge has been available on the tendency of mechanical properties of HEAs with body-centered cubic structures after ion irradiation. In this study, the evolution of mechanical properties of the HfNbZrTi irradiated with 3 MeV C ions is studied based on micropillar compression tests. The yield strength increases almost linearly from 974 to 2068 MPa with increasing irradiation doses up to 0.98 dpa. The correlation between the mechanical and microstructural changes agrees well with the prediction of Δδy=αMGb(ND)12, indicating a similar strengthening mechanism with conventional alloys. 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High entropy alloys (HEAs) have exhibited excellent irradiation resistance regarding structure stability. However, limited knowledge has been available on the tendency of mechanical properties of HEAs with body-centered cubic structures after ion irradiation. In this study, the evolution of mechanical properties of the HfNbZrTi irradiated with 3 MeV C ions is studied based on micropillar compression tests. The yield strength increases almost linearly from 974 to 2068 MPa with increasing irradiation doses up to 0.98 dpa. The correlation between the mechanical and microstructural changes agrees well with the prediction of Δδy=αMGb(ND)12, indicating a similar strengthening mechanism with conventional alloys. 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High entropy alloys (HEAs) have exhibited excellent irradiation resistance regarding structure stability. However, limited knowledge has been available on the tendency of mechanical properties of HEAs with body-centered cubic structures after ion irradiation. In this study, the evolution of mechanical properties of the HfNbZrTi irradiated with 3 MeV C ions is studied based on micropillar compression tests. The yield strength increases almost linearly from 974 to 2068 MPa with increasing irradiation doses up to 0.98 dpa. The correlation between the mechanical and microstructural changes agrees well with the prediction of Δδy=αMGb(ND)12, indicating a similar strengthening mechanism with conventional alloys. Nonetheless, the irradiation strengthening effect in this alloy is less pronounced in the low dose regime, and the saturation is postponed, compared with the stainless steel and the 3d metal high entropy alloys with face-centered cubic structures, exhibiting promising irradiation resistance regarding mechanical properties.</abstract><cop>Lausanne</cop><pub>Elsevier B.V</pub><doi>10.1016/j.jallcom.2021.162043</doi></addata></record>
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source Elsevier ScienceDirect Journals
subjects Alloys
Compression tests
Compressive strength
Entropy
High entropy alloy
High entropy alloys
Ion irradiation
Irradiation
Mechanical properties
Micropillar compression
Stainless steels
Strengthening
Structural stability
title Mechanical behavior of the HfNbZrTi high entropy alloy after ion irradiation based on micro-pillar compression tests
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