In the present study, room temperature mechanical properties of pure magnesium, Mg/ZrO2 and Mg/(ZrO2 + Cu) composites with various compositions are investigated. Results revealed that the use of hybrid (ZrO2 + Cu) reinforcements in Mg led to enhanced mechanical properties when compared to that of single reinforcement (ZrO2). Marginal reduction in mechanical properties of Mg/ZrO2 composites were observed mainly due to clustering of ZrO2 particles in Mg matrix and lack of matrix grain refinement. Addition of hybrid reinforcements led to grain size reduction and uniform distribution of hybrid reinforcements, globally and locally, in the hybrid composites. Macro- and micro- hardness, tensile strengths and compressive strengths were all signific...
In the present study, Mg (1.98 and 2.5) vol % TiO2 nanocomposites are primarily synthesized utilizin...
In this study, metallic elements that have limited/negligible solubility in pure magnesium (Mg) were...
602-607Magnesium-metal matrix composites reinforced with ceramic materials (TiO2, SiC, B4C, Al2O3) h...
ABSTRACT: In the present study, elemental and nano-ZrO2 particulates reinforced magnesium materials ...
In the present study, an attempt has been made to tailor the properties of monolithic magnesium by i...
In tins study, ingot metallurgy and powder metallurgy processes were used to incorporate 0.2 and 0.7...
In this study, the effects of nanoscale ZnO reinforcement on the room temperature tensile and compre...
We have investigate. The microstructure. The quasistatic and high-rate mechanical properties of magn...
We have investigated the microstructure, the quasistatic and high-rate mechanical properties of magn...
As a result of environmental considerations, a key challenge for the automobile and aerospace indust...
The present study aims to implement a non-destructive approach to determine the tensile properties o...
The present study reports the development of new magnesium composites containing complex composition...
The present study aims to implement a non-destructive approach to determine the tensile properties o...
Magnesium (Mg) and its alloys are potential metals for biodegradable implants because of several ben...
AbstractSome of the important mechanical properties, mainly strength and ductility of magnesium- bas...
In the present study, Mg (1.98 and 2.5) vol % TiO2 nanocomposites are primarily synthesized utilizin...
In this study, metallic elements that have limited/negligible solubility in pure magnesium (Mg) were...
602-607Magnesium-metal matrix composites reinforced with ceramic materials (TiO2, SiC, B4C, Al2O3) h...
ABSTRACT: In the present study, elemental and nano-ZrO2 particulates reinforced magnesium materials ...
In the present study, an attempt has been made to tailor the properties of monolithic magnesium by i...
In tins study, ingot metallurgy and powder metallurgy processes were used to incorporate 0.2 and 0.7...
In this study, the effects of nanoscale ZnO reinforcement on the room temperature tensile and compre...
We have investigate. The microstructure. The quasistatic and high-rate mechanical properties of magn...
We have investigated the microstructure, the quasistatic and high-rate mechanical properties of magn...
As a result of environmental considerations, a key challenge for the automobile and aerospace indust...
The present study aims to implement a non-destructive approach to determine the tensile properties o...
The present study reports the development of new magnesium composites containing complex composition...
The present study aims to implement a non-destructive approach to determine the tensile properties o...
Magnesium (Mg) and its alloys are potential metals for biodegradable implants because of several ben...
AbstractSome of the important mechanical properties, mainly strength and ductility of magnesium- bas...
In the present study, Mg (1.98 and 2.5) vol % TiO2 nanocomposites are primarily synthesized utilizin...
In this study, metallic elements that have limited/negligible solubility in pure magnesium (Mg) were...
602-607Magnesium-metal matrix composites reinforced with ceramic materials (TiO2, SiC, B4C, Al2O3) h...