Andere Kunden interessierten sich auch für
![Fabrication of Al 2024 metal matrix composite plates by FSW]( "Fabrication of Al 2024 metal matrix composite plates by FSW")
Fabrication of Al 2024 metal matrix composite plates by FSW26,99 €![EXPERIMENTAL INVESTIGATION OF HYBRID AA6061 METAL MATRIX COMPOSITES]( "EXPERIMENTAL INVESTIGATION OF HYBRID AA6061 METAL MATRIX COMPOSITES")
EXPERIMENTAL INVESTIGATION OF HYBRID AA6061 METAL MATRIX COMPOSITES40,99 €![Manufacturing and Machining of A356 alloy - SiC Metal Matrix Composite]( "Manufacturing and Machining of A356 alloy - SiC Metal Matrix Composite")
Manufacturing and Machining of A356 alloy - SiC Metal Matrix Composite50,99 €![Manufacturing and Processing of Metal Matrix Composites]( "Manufacturing and Processing of Metal Matrix Composites")
Manufacturing and Processing of Metal Matrix Composites26,99 €![Development of Al-MMC by reinformcement and its use in automotive parts]( "Development of Al-MMC by reinformcement and its use in automotive parts")
Development of Al-MMC by reinformcement and its use in automotive parts36,99 €![Dielectric properties of SiC and Al2O3 reinforced Aluminium Metal Matrix Composite (LM25)]( "Dielectric properties of SiC and Al2O3 reinforced Aluminium Metal Matrix Composite (LM25)")
Dielectric properties of SiC and Al2O3 reinforced Aluminium Metal Matrix Composite (LM25)26,99 €![Aluminum and Magnesium Metal Matrix Nanocomposites]( "Aluminum and Magnesium Metal Matrix Nanocomposites")
Aluminum and Magnesium Metal Matrix Nanocomposites75,99 €
This study aims to formulate and develop hybrid particle reinforced Al-metal matrix composites using stir casting method, a novel fabrication process in Bangladesh to fabricate metal matrix composite. Also, followed by investigation of its the physical, mechanical, morphological and machinability characteristics of the developed metal matrix composites. Three unique compositions of composites have been obtained by varying the wt. % amount of carbon nanotube, alumina and silicon carbide particulate reinforcements respectively 1%, 2.5% and 2.5%. Various mechanical properties, essentially the tensile strength, flexural strength, hardness, impact resistance; and physical properties like porosity, and density were tested; and a morphological and machinability study has been carried out for investigating the performance of the newly developed composites. The study showed that there was an 128.57% increment of tensile strength, an 7.1349% increment of hardness, an 45% increment of impact resistance, and a 0.8301% reduction of density by adding the particulate reinforcements in aluminum metal matrix composite.