Ceramics have a long history as a reinforcing material for metal matrix composites, and in recent years, more and more researchers have focused on high-entropy alloys.
Metal matrix composites reinforced with high-entropy alloys have greater advantages than ceramic reinforcement in terms of toughness, strength, ductility and machinability.
In this article, the work number 002 recommends the research of metal matrix composites such as high-entropy alloy reinforced aluminum alloy, copper alloy and titanium alloy to friends. Because casting is easy to cause uneven distribution of metal-based and reinforcing materials, it is important to recommend the manufacturing method of using metal powder and high-entropy alloy powder as raw materials. Such as powder metallurgy, mechanical alloying, cladding, etc.
The relevant research on high-entropy alloy reinforced metal matrix composites is as follows
| Metal-based | High-entropy alloy powder | Guide | serial number |
| 2024 | SiC、CoNiFeCrAl0.6Ti0.4 | Powder metallurgy | 1 |
| 2024 | FeCoNi1.5CrCu | Powder metallurgy, heat treatment, cryogenic treatment | 2 |
| 2024 | CoCrFeMnNi | Plasma sintering, mechanical properties | 3 |
| 5052 | Al0.6CoCrFeNi | Vacuum hot pressing sintering | 4 |
| 5052 | Al0.6CoCrFeNi | Plasma sintering | 5 |
| 5083 | Al0.8CoCrFeNi | Friction stirs, and recrystallization forms equiaxed crystals | 6 |
| 5083 | AlCoCrFeNi | Friction stirs, and recrystallization forms equiaxed crystals | 7 |
| 5083 | AlCoCrFeNi | Plasma sintering, mechanical properties | 8 |
| 5083 | Al0.8FeCoNiCrCu0.5Six | Laser cladding | 9 |
| 5083 | CoCrFeNi | Frictional deposition | 10 |
| 6061 | AlFeNiCrCoTi0.5 | Extrusion molding, which reduces microstructural defects in the matrix | 11 |
| 6061 | AlCoCrFeNi2.1 | Friction stirring, heat treatment, mechanical properties | 12 |
| 6061 | CoNiFeAl0.4Ti0.6Cr0.5 | Powder metallurgy | 13 |
| 7075 | FeCoCrNiAl | Vacuum ball milling and vacuum hot pressing sintering | 14 |
| 7075 | Fe1.2NiCrCoAlTi0.8 | Powder metallurgy, mechanical properties | 15 |
| 7075 | AlCrTiV | Powder metallurgy, mechanical properties | 16 |
| To the | CuZrNiAlTiW | Mechanical alloying, plasma sintering | 17 |
| Al-10Si-Mg | Al0.9CoCrFeNi | Above sea level | 18 |
| THE91 | Al0.5CoCrFeNi2 、SiC | Plasma sintering, mechanical properties | 19 |
| AZ91D | Al0.5CoCrCuFeNi | Laser cladding, corrosion-resistant HEA coating | 20 |
| With | AlCoCrFeN | Plasma sintering | 21 |
| With | AlCoCrFeNi | Plasma sintering, mechanical properties | 22 |
| With | Al0.3CoCrFeNi | Mechanical alloying, sintering | 23 |
| With | AlCoCrCuFe | Friction stirring, mechanical properties | 24 |
| With | FeCoNiCrAl | Friction stirring, mechanical properties | 25 |
| In | CoCrFeNiMo0.2 | sinter | 26 |
| Ti6Al4V | CoCrFeNiMo | Plasma sintering | 27 |
| Ti6Al4V | CoCrFeNiMo | Plasma sintering | 28 |
| In | FeNiCoCrMn | In-situ alloying, hot isostatic pressing | 29 |
| In | FeNiCoCrMn | Sintering, microwave sintering, plasma sintering | 30 |
1、Microstructure, mechanical properties and machinability of particulate reinforced Al matrix composites: a comparative study between SiC particles and high-entropy alloy particles
2、Microstructure and improved plasticity of (FeCoNi1.5CrCu)p/Al composites subject to adjusted deep cryogenic treatment (DCT)
3、Microstructure and properties of high-entropy alloy reinforced aluminum matrix composites by spark plasma sintering
4、Interface characteristics and mechanical properties of Al0.6CoCrFeNi/5052Al matrix composites fabricated via vacuum hot-pressing sintering and annealing
5、Effect of heat treatment on the interface of high-entropy alloy particles reinforced aluminum matrix composites
6、Friction stir processing of high-entropy alloy reinforced aluminum matrix composites for mechanical properties enhancement
7、AlCoCrFeNi high-entropy alloy particle reinforced 5083Al matrix composites with fine grain structure fabricated by submerged friction stir processing
8、Interface structure and tensile behavior of high entropy alloy particles reinforced Al matrix composites by spark plasma sintering
9、Phase assemblage and wear resistance of laser-cladding Al0.8FeCoNiCrCu0.5Sixhigh-entropy alloys on aluminum
10、Additive manufacturing of an aluminum matrix composite reinforced with nanocrystalline high-entropy alloy particles
11、Properties of AlFeNiCrCoTi0.5 high-entropy alloy particle-reinforced 6061Al composites prepared by extrusion
12、Microstructures and mechanical properties of AlCoCrFeNi2.1/6061-T6 aluminum-matrix composites prepared by friction stir processing
13、Effect of ball milling on microstructure and mechanical properties of 6061Al matrix composites reinforced with high-entropy alloy particles
14、Effects of reinforcement volume fraction on mechanical properties and microstructures of 7075Al matrix composites reinforced by FeCoCrNiAl high-entropy alloy particles
15、AA7075/HEAp composites fabricated by microwave sintering: Assessment of the microstructural features and response surface optimization
16、On the interactions between molten aluminum and high entropy alloy particles during aluminum matrix composite processing
17、Microstructure and properties of aluminium-high entropy alloy composites fabricated by mechanical alloying and spark plasma sintering
18、Microstructure and mechanical properties of novel high-entropy alloy particle reinforced aluminum matrix composites fabricated by selective laser melting
19、Al0.5CoCrFeNi2 high entropy alloy particle reinforced AZ91 magnesium alloy-based composite processed by spark plasma sintering
20、Wear and corrosion resistance of Al0.5CoCrCuFeNi high-entropy alloy coating deposited on AZ91D magnesium alloy by laser cladding
21、AlCoCrFeNi high entropy alloy reinforced Cu-based composite with high strength and ductility after hot extrusion
22、AlCoCrFeNi high entropy alloy reinforced Cu-based composite with high strength and ductility after hot extrusion
23、Modifying element diffusion pathway by transition layer structure in high-entropy alloy particle reinforced Cu matrix composites
24、Influence of AlCoCrCuFe high entropy alloy particles on the microstructural, mechanical and tribological properties of copper surface composite made through friction stir processing
25、Microstructure and properties of FeCoNiCrAl high-entropy alloy particle reinforced Cu-matrix composites prepared via FSP
26、Microstructure and properties of high entropy alloy reinforced titanium matrix composites
27、Duplex strengthening via high-entropy alloy particle addition and in-situ solution strengthening in spark plasma sintering composite materials
28、Multiple strengthening via high-entropy alloy particle addition in titanium matrix composites fabricated by spark plasma sintering
29、Microstructure and mechanical properties of hot isostatic pressed tungsten heavy alloy with FeNiCoCrMn high entropy alloy binder
30、Tungsten matrix composite reinforced with CoCrFeMnNi high-entropy alloy: Impact of processing routes on microstructure and mechanical properties