Effects of processing conditions on solidification characteristics and mechanical properties of in situ magnesium metal matrix composites derived from polysilazane precursor

Chelliah, Nagaraj M.; Padaikathan, Pambannan; Surappa, M.K.

doi:10.1177/0021998319846546

Cited by 8 publications

(3 citation statements)

References 30 publications

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“…found in-situ developed MMC at higher temperature showed brittle failure. 44 It is important to mention, cauliflower structures are not identified on the failed surface.…”

Section: Resultsmentioning

confidence: 99%

Development of magnesium-based hybrid metal matrix composite through in situ micro, nano reinforcements

Singh

Kumar

Singh

2020

Journal of Composite Materials

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Present work aims at developing Magnesium based metal matrix composite (MMC) through in-situ reaction. In-situ generation of micro and nano particles in the Mg-melt is supposed to have a better bonding with the matrix. Ceric ammonium nitrate (CAN) is added to initial Magnesium melt (with an aim to generate CeO2 and MgO through in-situ reaction) at temperatures of 670 °C and 870 °C. The developed MMCs are solution treated to get rid of intermetallic. The nature of particles is explored with X-ray diffraction (XRD) and Energy dispersion spectroscopy (EDS). The morphology and sizes of particles are keenly jotted using scanning electron microscope (SEM). Mechanical responses of developed MMCs are recorded through Hardness, Compression and scratch tests. The compression fractured surfaces are analyzed with SEM and scratched samples are analyzed on 3 D optical profilometer to explore deformation behavior. The observations indicate the in-situ formation of CeO2, MgO and CeMg12 intermetallic phases in different types and sizes. Further, these particles are responsible for improved mechanical properties. The findings are supported by the contribution of different strengthening mechanisms.

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“…found in-situ developed MMC at higher temperature showed brittle failure. 44 It is important to mention, cauliflower structures are not identified on the failed surface.…”

Section: Resultsmentioning

confidence: 99%

Development of magnesium-based hybrid metal matrix composite through in situ micro, nano reinforcements

Singh

Kumar

Singh

2020

Journal of Composite Materials

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“…Chelliah et al 21 investigated the effect of pyrolysis temperature on microstructural evolution of in-situ magnesium matrix composites containing SiCNO dispersoids. They found that the formation of brittle Mg 2 Si phase in molten magnesium can be minimized by decreasing the pyrolysis temperature from 800 to 700°C.…”

Section: Introductionmentioning

confidence: 99%

“…They found that the formation of brittle Mg 2 Si phase in molten magnesium can be minimized by decreasing the pyrolysis temperature from 800 to 700°C. 21 It has been established that Mg is a good wettability agent to introduce ceramic particles into molten aluminum by stir-casting process. Although Mg helps in improving the wettability of molten aluminum, 22 the incorporation of Si-based polymer precursor into molten aluminum may form brittle Mg 2 Si phase which impairs the ductility of resulting composite.…”

Section: Introductionmentioning

confidence: 99%

Effect of melt temperature on microstructural and strength properties of in-situ aluminum metal matrix composites containing SiCNO particles

Pandian

Chelliah

Rohatgi

et al. 2023

Journal of Composite Materials

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Polymer Injection Pyrolysis (PIPs) can be adopted to synthesize in-situ ceramic particles within molten metal by stir-casting process. This paper investigated the effect of pyrolysis temperatures on microstructural and strength properties of in-situ aluminum matrix composites containing 2.5 vol% of SiCNO particles. In-situ composites were synthesized by stir-mixing of cross-linked polysilazane at four different pyrolysis temperatures (675–850°C) at which in-situ pyrolysis occurred and then followed by ultrasonic agitation and squeeze casting process. Microstructural data reveals that grain size and the particle size of SiCNO particles decreases with increasing the temperature of the melt at which polymer was introduced into the melt. The increase in the strength properties of the fabricated composites as compared to pure aluminum is almost 210% for the composites fabricated at 850°C while it is marginally 17% for the composites fabricated at 720°C. Fractography studies suggest that composite fabricated at 675°C exhibits a better combination of yield strength and ductility.

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Graphene Based Aluminum Matrix Hybrid Nano Composites

Mondal

2021

Composites Science and Technology

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Effects of processing conditions on solidification characteristics and mechanical properties of in situ magnesium metal matrix composites derived from polysilazane precursor

Cited by 8 publications

References 30 publications

Development of magnesium-based hybrid metal matrix composite through in situ micro, nano reinforcements

Development of magnesium-based hybrid metal matrix composite through in situ micro, nano reinforcements

Effect of melt temperature on microstructural and strength properties of in-situ aluminum metal matrix composites containing SiCNO particles

Graphene Based Aluminum Matrix Hybrid Nano Composites

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