Effect of Al Content on Microstructure, Mechanical, and Corrosion Properties of (Fe33Cr36Ni15Co15Ti1)100−xAlx High‐Entropy Alloys

Zheng, Qifeng; Lu, Weiyan; Han, Dong; Li, Tianrun; Guo, Hui; Qiu, Keqiang; Yang, Baijun; Wang, Jianqiang

doi:10.1002/adem.202301013

Adv Eng Mater

2023

DOI: 10.1002/adem.202301013

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Effect of Al Content on Microstructure, Mechanical, and Corrosion Properties of (Fe₃₃Cr₃₆Ni₁₅Co₁₅Ti₁)_100−xAl_x High‐Entropy Alloys

Qifeng Zheng,

Weiyan Lu,

Dong Han

et al.

Abstract: (Fe33Cr36Ni15Co15Ti1)100−x Al x (x=0, 3, 5, 6, 7, 8) high entropy alloys (HEAs) were prepared by arc‐melting. The influence of Al element addition on the microstructure, mechanical properties, and anti‐corrosion in 3.5 wt.% NaCl aqueous solution was systematically investigated. The microstructure analysis indicated that HEAs possessed varying phases from FCC+Sigma to FCC+BCC and then FCC+BCC+Sigma, the last to BCC+Sigma with the increase of Al content. The compressive results suggested that the Al addition ex… Show more

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Cited by 4 publications

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Atomic simulation for the effect of short-range order and twin boundary on mechanical behavior of FeNiCrCoAl high-entropy alloys

Deng,

Song

2024

Journal of Materials Research and Technology

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Atomic simulation for the effect of short-range order and twin boundary on mechanical behavior of FeNiCrCoAl high-entropy alloys

Deng,

Song

2024

Journal of Materials Research and Technology

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Enhancing mechanical performance of Ti2ZrNbHfVAl refractory high-entropy alloys through laves phase

Xu,

Chen,

Yang

et al. 2024

Materials Science and Engineering: A

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Microstructures and Properties of Laser-Cladded FeCoCrNiAlTi High-Entropy Alloy with Intensive Repair Potential

Yu,

Liu,

Wang

et al. 2024

Coatings

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As a key step in intensive additive repair, the design of intensive repair materials immediately needs to be explored. In this work, an intensive additive repair study based on laser cladding technology was performed using a self-designed Fe20Co25Ni31Cr8Al9Ti7 high-entropy alloy (HEA) powder and three types of substrates widely used in field equipment (namely, Q235, 17CrNiMo6H, and 304 stainless steel). The results revealed that the HEA repair layer (HEA-RL) consists of a dominant FCC phase and a small amount of BCC phase, and the microstructure shows the columnar-to-equiaxed grain transition behavior. The metallurgical bonding between the HEA-RL and the three substrates has almost no defects. Compared with the three substrates, the HEA-RL has a much higher microhardness (~340 HV) and decent corrosion resistance. Therefore, the underlying mechanisms for the microstructure and performance of the HEA-RL were also discussed. This work provides a new idea for the design of intensive repair materials.

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Effect of Al Content on Microstructure, Mechanical, and Corrosion Properties of (Fe₃₃Cr₃₆Ni₁₅Co₁₅Ti₁)_100−xAl_x High‐Entropy Alloys

Cited by 4 publications

References 68 publications

Atomic simulation for the effect of short-range order and twin boundary on mechanical behavior of FeNiCrCoAl high-entropy alloys

Atomic simulation for the effect of short-range order and twin boundary on mechanical behavior of FeNiCrCoAl high-entropy alloys

Enhancing mechanical performance of Ti2ZrNbHfVAl refractory high-entropy alloys through laves phase

Microstructures and Properties of Laser-Cladded FeCoCrNiAlTi High-Entropy Alloy with Intensive Repair Potential

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