On the microstructure of ceramic hollow microspheres
TLDR
In this paper, the microstructure of the ceramic hollow microspheres as reinforcing element was investigated, and the results showed that the Al2O3 and SiO2 distribution was not equal; the Al 2O3 phase was embedded in the surrounding mullite and Si O2 phase in the form of needles.Abstract:
Metal matrix syntactic foams (MMSFs) are relatively new materials which have increasing interest in the field of aviation and packaging industry. They are metal matrix composites, and their porosity is ensured by the incorporation of ceramic hollow microspheres. In this paper the microstructure of the ceramic hollow microspheres as reinforcing element was investigated. SL150, SLG and SL300 type ceramic microspheres were investigated. They contain various oxides, mainly Al2O2 and SiO2. Energy dispersive X-ray spectroscopy (EDS) maps were recorded from the sections of the microspheres’ wall. The results showed that the Al2O3 and SiO2 distribution was not equal; the Al2O3 phase was embedded in the surrounding mullite and SiO2 phase in the form of needles. EDS along a line in aluminium matrix syntactic foams was carried out in order to investigate the possible reaction between the aluminium matrix and the ceramic microspheres. Due to the uneven distribution of Al2O3 rich particles, the molten aluminium can reduce the SiO2 rich parts of the microspheres and the wall of the microspheres become damaged and degraded. This chemical reaction between the microspheres and the walls can make the infiltration easier, but the resulting mechanical properties will be lower due to the damaged microsphere walls.read more
Citations
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Characteristic compressive properties of hybrid metal matrix syntactic foams
TL;DR: In this paper, an AlSi12 matrix hybrid MMSF with monomodal Globocer (Al 2 O 3 and SiO 2 based ceramic) and pure Fe reinforcements were produced by pressure infiltration.
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Metal matrix syntactic foams produced by pressure infiltration—The effect of infiltration parameters
TL;DR: In this article, metal matrix syntactic foams (MMSFs) were produced by pressure infiltration and two parameters of the infiltration process (pressure and time) were varied and the infiltrated length was measured as the function of infiltration parameters in order to get data for the implementation of pressure infiltration as mass-production of MMSFs similar to injection mould casting, especially in the short infiltration time range.
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Quasi-static and high strain rate response of aluminum matrix syntactic foams under compression
TL;DR: In this article, aluminum alloy matrix syntactic foams were produced by inert gas pressure infiltration and four different alloys and ceramic hollow spheres were applied as matrix and filler material, respectively, the effects of the chemical composition of the matrix and the different heat-treatments are reported at different strain rates and in compressive loadings.
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On the sintering mechanisms and microstructure of aluminium–ceramic cenospheres syntactic foams produced by powder metallurgy route
TL;DR: In this paper, the in situ reaction between silica (phase of mullite) and aluminium particles, apart from any degradation of the mullite cell wall and the precipitation of silicon in the matrix, changes the sintering mechanism of syntactic foams due to the formation of eutectic aluminium-silica liquid quantities.
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Effects of specimen aspect ratio on the compressive properties of Mg alloy foam
TL;DR: In this article, the effects of specimen aspect ratio (the thickness/width ratio, AR) on the compressive properties of closed-cell Mg alloy foams were investigated systematically and the results showed that the length of stress strain plateau stage extended and ideality energy absorption efficiency improved with the specimen AR increasing and the yield strength decreased.
References
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Pressure infiltration technique for synthesis of aluminum–fly ash particulate composite
TL;DR: In this article, the authors used Young's and Washburn equations to calculate an effective wetting angle between molten pure aluminum and fly ash using Young's equations and showed good infiltration except for regions between contacting cenospheres.
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Synthesis-microstructure-mechanical properties-wear and corrosion behavior of an Al-Si (12%)—Flyash metal matrix composite
M. Ramachandra,K. Radhakrishna +1 more
TL;DR: In this article, an aluminium-based metal matrix composite containing up to 15% weight percentage of flyash particulates were successfully synthesized using vortex method and the properties like density, hardness, microhardness, ductility and ultimate tensile strength were investigated.
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Pressure infiltrated syntactic foams—Process development and mechanical properties
TL;DR: In this paper, a pressure infiltration process for the production of aluminium syntactic foams incorporating 45 and 270μm ceramic microspheres in nominally 1350, 5083 and 6061 aluminium alloy matrices was studied.
Journal ArticleDOI
Metal foams—high temperature colloids: Part I. Ex situ analysis of metal foams
TL;DR: Experimental work based on ex situ metallography on metal foams is used in this paper to answer some questions associated with the mechanism of stabilization of liquid metal foam and to define areas where further research is still needed.
Journal ArticleDOI
Dry sliding wear behaviour of aluminum syntactic foam
D.P. Mondal,S. Das,Nidhi Jha +2 more
TL;DR: In this paper, the sliding wear behavior of cenosphere reinforced aluminum syntactic foam has been studied using a pin-on-disc apparatus at load range of 1-5 kg and sliding velocity of 2-4m/s.
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