Search Results - "Paramsothy, M."

Addition of CNTs to enhance tensile/compressive response of magnesium alloy ZK60A by Paramsothy, M., Chan, J., Kwok, R., Gupta, M.

“…ZK60A nanocomposite containing CNT nanoparticle reinforcement was fabricated using solidification processing followed by hot extrusion. The ZK60A nanocomposite…”
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Physical interactions at carbon nanotube-polymer interface by Wong, M., Paramsothy, M., Xu, X.J., Ren, Y., Li, S., Liao, K.

“…Mechanical properties of carbon nanotube (CNT) reinforced polystyrene rod and CNT reinforced epoxy thin film were studied and the CNT-polymer interface in…”
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Solidification processed Mg/Al bimetal macrocomposite: Microstructure and mechanical properties by Paramsothy, M., Srikanth, N., Gupta, M.

“…A new bimetal magnesium/aluminium (Mg/Al) macrocomposite containing mm-scale Al core reinforcement was fabricated via casting and hot coextrusion…”
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Enhancing tensile/compressive response of magnesium alloy AZ31 by integrating with Al2O3 nanoparticles by PARAMSOTHY, M, HASSAN, S. F, SRIKANTH, N, GUPTA, M

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In-situ rod-shaped nanoparticles in Mg–Zn magnesium alloy: Towards high strength and ductility by Paramsothy, M., Gupta, M.

“…•Zn addition significantly improved tensile strength and ductility of ZK60A alloy.•Zn addition enabled high aspect ratio nanorod formation insitu, for the…”
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Investigation on the Controlled Degradation and Invitro Mineralization of Carbon Nanotube Reinforced AZ31 Nanocomposite in Simulated Body Fluid by Kumar, A. Madhan, Hassan, S. Fida, Sorour, Ahmad A., Paramsothy, M., Gupta, M.

“…Magnesium (Mg) based implant materials are believed to be the perfect candidates for biomedical applications due to their versatile properties. However,…”
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Influence of nano-sized carbon nanotube reinforcements on tensile deformation, cyclic fatigue, and final fracture behavior of a magnesium alloy by Srivatsan, T. S., Godbole, C., Paramsothy, M., Gupta, M.

“…Magnesium alloy (AZ31) based metal matrix composite reinforced with carbon nanotubes (CNTs) was fabricated using the technique of disintegrated melt deposition…”
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Enhanced mechanical response of hybrid alloy AZ31 /AZ91 based on the addition of Si3N4 nanoparticles by PARAMSOTHY, M, CHAN, J, KWOK, R, GUPTA, M

“…The tensile strength and ductility of AZ31/AZ91 hybrid magnesium alloy with Si3N4 nanoparticles were studied. AZ31/AZ91 hybrid alloy nanocomposite containing…”
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Carbon nanotube addition to concentrated magnesium alloy AZ81: Enhanced ductility with occasional significant increase in strength by Paramsothy, M., Tan, X.H., Chan, J., Kwok, R., Gupta, M.

“…► CNT nanoparticles were successfully integrated with concentrated magnesium alloy AZ81 in extruded form. ► An enhancement of tensile ductility without…”
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Electrochemical Corrosion and In vitro Biocompatibility Performance of AZ31Mg/Al2O3 Nanocomposite in Simulated Body Fluid by Madhan Kumar, A., Fida Hassan, S., Sorour, Ahmad A., Paramsothy, M., Gupta, M.

“…In this present investigation, AZ31 alloy nanocomposite was prepared with the inclusion of Al 2 O 3 nanoparticles using innovative disintegrated melt…”
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The synergistic ability of Al2O3 nanoparticles to enhance mechanical response of hybrid alloy AZ31/AZ91 by PARAMSOTHY, M, CHAN, J, KWOK, R, GUPTA, M

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Enhanced mechanical response of magnesium alloy ZK60A containing Si₃N₄ nanoparticles by Paramsothy, M, Chan, J, Kwok, R, Gupta, M

“…ZK60A Nanocomposite containing Si₃N₄ nanoparticles was fabricated using solidification processing followed by hot extrusion. The ZK60A nanocomposite exhibited…”
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Using integrated hybrid (Al + CNT) reinforcement to simultaneously enhance strength and ductility of magnesium by Habibi, M.K., Paramsothy, M., Hamouda, A.M.S., Gupta, M.

“…Magnesium nano-composites containing hybrid aluminium–carbon nanotube (Al–CNT) reinforcement were synthesized through powder metallurgy route using microwave…”
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Tailoring the tensile/compressive response of magnesium alloy ZK60A using Al2O3 nanoparticles by Jayaramanavar, P., Paramsothy, M., Balaji, A., Gupta, M.

“…ZK60A nanocomposites containing Al 2 O 3 nanoparticle reinforcement were fabricated using solidification processing followed by hot extrusion and T5 heat…”
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High temperature tensile response of nano-Al2O3 reinforced AZ31 nanocomposites by Hassan, S.F., Paramsothy, M., Patel, F., Gupta, M.

“…Nano-Al2O3 reinforcement's capability to simultaneously enhance the room temperature (25°C) strength and ductility of magnesium alloys has effectively been…”
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Al2O3 nanoparticle addition to concentrated magnesium alloy AZ81: Enhanced ductility by Paramsothy, M., Tan, X.H., Chan, J., Kwok, R., Gupta, M.

“…► Al2O3 nanoparticles were successfully integrated with concentrated magnesium alloy AZ81 in extruded form. ► An enhancement of tensile ductility without…”
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Mechanical Behavior of a Magnesium Alloy Nanocomposite Under Conditions of Static Tension and Dynamic Fatigue by Srivatsan, T. S., Godbole, C., Quick, T., Paramsothy, M., Gupta, M.

“…In this paper, the intrinsic influence of nano-alumina particulate (Al 2 O 3p ) reinforcements on microstructure, microhardness, tensile properties, tensile…”
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Adding carbon nanotubes and integrating with AA5052 aluminium alloy core to simultaneously enhance stiffness, strength and failure strain of AZ31 magnesium alloy by Paramsothy, M., Hassan, S.F., Srikanth, N., Gupta, M.

“…New bimetal AZ31-CNT/AA5052 macrocomposite comprising: (a) carbon nanotube (CNT) reinforced magnesium alloy AZ31 shell and (b) aluminium alloy AA5052…”
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Enhanced compressive response of hybrid Mg–CNT nano-composites by Habibi, M. K., Paramsothy, M., Hamouda, A. M. S., Gupta, M.

“…Uniaxial compressive properties of hybrid Mg/Al–CNT nano-composites are studied in the present paper. Hybrid nano-composites were fabricated using powder…”
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The role of aluminum oxide particulate reinforcements on cyclic fatigue and final fracture behavior of a novel magnesium alloy by Srivatsan, T.S., Godbole, C., Paramsothy, M., Gupta, M.

“…► An alloy having three weight percent more aluminum than the monolithic counterpart was produced. ► Microhardness, tensile, fatigue and fracture of the…”
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