The present research deals with development and characterisation of magnesium–SiC–Gr hybrid composites through powder metallurgy route.Morphology analysis of the magnesium and reinforcement powder particles has been...The present research deals with development and characterisation of magnesium–SiC–Gr hybrid composites through powder metallurgy route.Morphology analysis of the magnesium and reinforcement powder particles has been carried out using particle size analyser(PSA)and X-ray diffraction(XRD),and then the mixed powders were analysed through scanning electron microscope(SEM).The developed composite exhibit increased hardness when compared to base material,which could be attributed to the presence of hard SiC.Furthermore,a slight decrease in hardness is observed for the hybrid composite when compared to Mg–SiC composite due to the presence of soft Gr particles.The tribological properties of the developed composite materials were investigated using pin-on-disc wear test apparatus under dry sliding conditions.The wear resistance of the developed composites improved significantly than that of the magnesium matrix due to the upright effect offered by both of the reinforcements.The SEM analysis was carried out on the worn out surfaces for better understanding of wear mechanisms.5%Gr reinforced Mg-10SiC composites confer better wear resistance among the developed composites.展开更多
Al6061matrix with different amounts of nano-silver(1%and2%)was produced by stir-casting method.Producedsamples were characterized by hardness,tensile,compression and wear tests.The hardness of the specimens at room te...Al6061matrix with different amounts of nano-silver(1%and2%)was produced by stir-casting method.Producedsamples were characterized by hardness,tensile,compression and wear tests.The hardness of the specimens at room temperature wasmeasured by Brinnell hardness testing machine.The magnitude of hardness increased evidently with the function of the mass fractionof the nano-Ag particle.The polished specimens were examined with an optical microscope.The fracture surfaces of tensile andcompressive specimens were further examined by scanning electron microscopy.Wear mechanisms were discussed based on thescanning electron microscopy observations of worn surface and wear debris morphology.There is an increase in compressivestrength,ultimate tensile strength,elongation and wear resistance of the Al?Ag composites compared with base alloy.The executionof stir-casting technique is relatively homogenous and fine microstructure which improves the addition of reinforcement material inthe molten metal.The results show that Al6061?nano-silver which is the best combination of hardness can replace the conventionalmaterial for better performance and longer life.展开更多
文摘The present research deals with development and characterisation of magnesium–SiC–Gr hybrid composites through powder metallurgy route.Morphology analysis of the magnesium and reinforcement powder particles has been carried out using particle size analyser(PSA)and X-ray diffraction(XRD),and then the mixed powders were analysed through scanning electron microscope(SEM).The developed composite exhibit increased hardness when compared to base material,which could be attributed to the presence of hard SiC.Furthermore,a slight decrease in hardness is observed for the hybrid composite when compared to Mg–SiC composite due to the presence of soft Gr particles.The tribological properties of the developed composite materials were investigated using pin-on-disc wear test apparatus under dry sliding conditions.The wear resistance of the developed composites improved significantly than that of the magnesium matrix due to the upright effect offered by both of the reinforcements.The SEM analysis was carried out on the worn out surfaces for better understanding of wear mechanisms.5%Gr reinforced Mg-10SiC composites confer better wear resistance among the developed composites.
文摘Al6061matrix with different amounts of nano-silver(1%and2%)was produced by stir-casting method.Producedsamples were characterized by hardness,tensile,compression and wear tests.The hardness of the specimens at room temperature wasmeasured by Brinnell hardness testing machine.The magnitude of hardness increased evidently with the function of the mass fractionof the nano-Ag particle.The polished specimens were examined with an optical microscope.The fracture surfaces of tensile andcompressive specimens were further examined by scanning electron microscopy.Wear mechanisms were discussed based on thescanning electron microscopy observations of worn surface and wear debris morphology.There is an increase in compressivestrength,ultimate tensile strength,elongation and wear resistance of the Al?Ag composites compared with base alloy.The executionof stir-casting technique is relatively homogenous and fine microstructure which improves the addition of reinforcement material inthe molten metal.The results show that Al6061?nano-silver which is the best combination of hardness can replace the conventionalmaterial for better performance and longer life.
