Kyu Cho scite author profile

Potential of widespread industrial applications of magnesium has been realized in recent years. A variety of magnesium alloy matrix composites are now being studied for mechanical properties. Since magnesium is the lightest structural metal, it can replace aluminum in existing applications for further weight savings. This review presents an overview of hollow particle filled magnesium matrix syntactic composite foams. Fly ash cenospheres are the most commonly used hollow particles for such applications. Fly ash cenospheres primarily have alumino-silicate composition and contain a large number of trace elements, which makes it challenging to study the interfacial reactions and microstructure in these composites. Microstructures of commonly studied AZ and ZC series magnesium alloys and their syntactic foams are discussed. Although only a few studies are available on these materials because of the nascent stage of this field, a comparison with similar aluminum matrix syntactic foams has provided insight into the properties and weight saving potential of magnesium matrix composites. Analysis shows that the magnesium matrix syntactic foams have higher yield strength at the same level of density compared to most other metal matrix syntactic foams. The comparison can guide future work and set goals that need to be achieved through materials selection and processing method development.

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Prediction models for the yield strength of particle-reinforced unimodal pure magnesium (Mg) metal matrix nanocomposites (MMNCs)

Kim

et al. 2013

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On the strength and strain to failure in particle-reinforced magnesium metal-matrix nanocomposites (Mg MMNCs)

Ferguson¹,

Sheykh-jaberi²,

Kim³

et al. 2012

Materials Science and Engineering: A

133

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Kyu Cho

Development of high performance lightweight aluminum alloy/SiC hollow sphere syntactic foams and compressive characterization at quasi-static and high strain rates

Microstructure, precipitates and hardness of selectively laser melted AlSi10Mg alloy before and after heat treatment

Magnesium Matrix Composite Foams—Density, Mechanical Properties, and Applications

Prediction models for the yield strength of particle-reinforced unimodal pure magnesium (Mg) metal matrix nanocomposites (MMNCs)

On the strength and strain to failure in particle-reinforced magnesium metal-matrix nanocomposites (Mg MMNCs)

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