Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> High Entropy Alloy Particle Reinforced AZ91 Magnesium Alloy-Based Composite Processed by Spark Plasma Sintering
In this study, AZ91 magnesium-alloy-based metal matrix composites (MMCs) reinforced with 10 wt% of Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> high-entropy alloy (HEA) particles and SiC particles were prepared by a spark plasma sintering (SPS) process at 300 °C. The effects of reinf...
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2021
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oai:doaj.org-article:7aa6100a5eb542beba61f7d34d0aaf282021-11-11T18:05:30ZAl<sub>0.5</sub>CoCrFeNi<sub>2</sub> High Entropy Alloy Particle Reinforced AZ91 Magnesium Alloy-Based Composite Processed by Spark Plasma Sintering10.3390/ma142165201996-1944https://doaj.org/article/7aa6100a5eb542beba61f7d34d0aaf282021-10-01T00:00:00Zhttps://www.mdpi.com/1996-1944/14/21/6520https://doaj.org/toc/1996-1944In this study, AZ91 magnesium-alloy-based metal matrix composites (MMCs) reinforced with 10 wt% of Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> high-entropy alloy (HEA) particles and SiC particles were prepared by a spark plasma sintering (SPS) process at 300 °C. The effects of reinforcements on the microstructure and mechanical properties of AZ91-based MMCs were studied. The results showed that AZ91–HEA composite consisted of α-Mg, Mg<sub>17</sub>Al<sub>12</sub> and FCC phases. No interfacial reaction layer was observed between HEA particles and the Mg matrix. After adding HEA into AZ91, the compressive yield strength (C.Y.S) of the AZ91–HEA composite increased by 17% without degradation of failure strain. In addition, the increment in C.Y.S brought by HEA was comparable to that contributed by commonly used SiC reinforcement (15%). A relatively low porosity in the composite and enhanced interfacial bonding between the α-Mg matrix and HEA particles make HEA a potential reinforcement material in MMCs.Chun ChiuHsun-Hsiang ChangMDPI AGarticleAZ91 magnesium alloyhigh-entropy alloymetal matrix compositespark plasma sinteringTechnologyTElectrical engineering. Electronics. Nuclear engineeringTK1-9971Engineering (General). Civil engineering (General)TA1-2040MicroscopyQH201-278.5Descriptive and experimental mechanicsQC120-168.85ENMaterials, Vol 14, Iss 6520, p 6520 (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
AZ91 magnesium alloy high-entropy alloy metal matrix composite spark plasma sintering Technology T Electrical engineering. Electronics. Nuclear engineering TK1-9971 Engineering (General). Civil engineering (General) TA1-2040 Microscopy QH201-278.5 Descriptive and experimental mechanics QC120-168.85 |
| spellingShingle |
AZ91 magnesium alloy high-entropy alloy metal matrix composite spark plasma sintering Technology T Electrical engineering. Electronics. Nuclear engineering TK1-9971 Engineering (General). Civil engineering (General) TA1-2040 Microscopy QH201-278.5 Descriptive and experimental mechanics QC120-168.85 Chun Chiu Hsun-Hsiang Chang Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> High Entropy Alloy Particle Reinforced AZ91 Magnesium Alloy-Based Composite Processed by Spark Plasma Sintering |
| description |
In this study, AZ91 magnesium-alloy-based metal matrix composites (MMCs) reinforced with 10 wt% of Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> high-entropy alloy (HEA) particles and SiC particles were prepared by a spark plasma sintering (SPS) process at 300 °C. The effects of reinforcements on the microstructure and mechanical properties of AZ91-based MMCs were studied. The results showed that AZ91–HEA composite consisted of α-Mg, Mg<sub>17</sub>Al<sub>12</sub> and FCC phases. No interfacial reaction layer was observed between HEA particles and the Mg matrix. After adding HEA into AZ91, the compressive yield strength (C.Y.S) of the AZ91–HEA composite increased by 17% without degradation of failure strain. In addition, the increment in C.Y.S brought by HEA was comparable to that contributed by commonly used SiC reinforcement (15%). A relatively low porosity in the composite and enhanced interfacial bonding between the α-Mg matrix and HEA particles make HEA a potential reinforcement material in MMCs. |
| format |
article |
| author |
Chun Chiu Hsun-Hsiang Chang |
| author_facet |
Chun Chiu Hsun-Hsiang Chang |
| author_sort |
Chun Chiu |
| title |
Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> High Entropy Alloy Particle Reinforced AZ91 Magnesium Alloy-Based Composite Processed by Spark Plasma Sintering |
| title_short |
Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> High Entropy Alloy Particle Reinforced AZ91 Magnesium Alloy-Based Composite Processed by Spark Plasma Sintering |
| title_full |
Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> High Entropy Alloy Particle Reinforced AZ91 Magnesium Alloy-Based Composite Processed by Spark Plasma Sintering |
| title_fullStr |
Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> High Entropy Alloy Particle Reinforced AZ91 Magnesium Alloy-Based Composite Processed by Spark Plasma Sintering |
| title_full_unstemmed |
Al<sub>0.5</sub>CoCrFeNi<sub>2</sub> High Entropy Alloy Particle Reinforced AZ91 Magnesium Alloy-Based Composite Processed by Spark Plasma Sintering |
| title_sort |
al<sub>0.5</sub>cocrfeni<sub>2</sub> high entropy alloy particle reinforced az91 magnesium alloy-based composite processed by spark plasma sintering |
| publisher |
MDPI AG |
| publishDate |
2021 |
| url |
https://doaj.org/article/7aa6100a5eb542beba61f7d34d0aaf28 |
| work_keys_str_mv |
AT chunchiu alsub05subcocrfenisub2subhighentropyalloyparticlereinforcedaz91magnesiumalloybasedcompositeprocessedbysparkplasmasintering AT hsunhsiangchang alsub05subcocrfenisub2subhighentropyalloyparticlereinforcedaz91magnesiumalloybasedcompositeprocessedbysparkplasmasintering |
| _version_ |
1718431951923183616 |