Composite panels containing up to 40 vol % discontinuous silicon carbide SiC whisker, nodule, or particulate reinforcement in several aluminum matrices are commercially fabricated and the mechanical properties and microstructual characteristics are evaluated. The yield and tensile strengths and the ductility are controlled primarily by the matrix alloy, the temper condition, and the reinforcement content. Particulate and nodule reinforcements are as effective as whisker reinforcement. Increased ductility is attributed to purer, more uniform starting materials and to more mechanical working during fabrication. Comparing mechanical properties with those of other aluminum alloys shows that these low cost, lightweight composites demonstrate ver...
Silicon carbide particle reinforced aluminum matrix composites have been developed over past few dec...
AbstractAluminium alloy materials found to the best alternative with its unique capacity of designin...
People propose higher and higher demands for lightweight materials due to the increasing shortage of...
Panels of discontinuous SiC composites, with several aluminum matrices, were fabricated and evaluate...
Mechanical properties and stress-strain behavior for several types of commercially fabricated alumin...
The relationship between tensile properties and microstructure of a powder metallurgy aluminum alloy...
The relationship between tensile properties and microstructure of a powder metallurgy aluminum alloy...
A systematic experimental evaluation of whisker and particulate reinforced aluminum matrix composite...
Metal matrix composite (MMCs) are next generation materials. MMCs add higher strength and stiffness ...
Aluminium matrix composites (AMCs) have great potential for critical applications within aerospace, ...
Aluminum matrix composites (AMCs) are widely used in automotive and aerospace industries. The materi...
Vehicles and aviation applications require materials that have adjusted mechanical and tribological ...
The mechanical properties of metal matrix composites (MMCs) reinforced by discontinuous silicon carb...
A phrase heard often in recent years, advanced composite materials like Al/SiC metal matrix composit...
In the current exploration, the impact of the 100 to 125 micron size addition of silicon carbide (Si...
Silicon carbide particle reinforced aluminum matrix composites have been developed over past few dec...
AbstractAluminium alloy materials found to the best alternative with its unique capacity of designin...
People propose higher and higher demands for lightweight materials due to the increasing shortage of...
Panels of discontinuous SiC composites, with several aluminum matrices, were fabricated and evaluate...
Mechanical properties and stress-strain behavior for several types of commercially fabricated alumin...
The relationship between tensile properties and microstructure of a powder metallurgy aluminum alloy...
The relationship between tensile properties and microstructure of a powder metallurgy aluminum alloy...
A systematic experimental evaluation of whisker and particulate reinforced aluminum matrix composite...
Metal matrix composite (MMCs) are next generation materials. MMCs add higher strength and stiffness ...
Aluminium matrix composites (AMCs) have great potential for critical applications within aerospace, ...
Aluminum matrix composites (AMCs) are widely used in automotive and aerospace industries. The materi...
Vehicles and aviation applications require materials that have adjusted mechanical and tribological ...
The mechanical properties of metal matrix composites (MMCs) reinforced by discontinuous silicon carb...
A phrase heard often in recent years, advanced composite materials like Al/SiC metal matrix composit...
In the current exploration, the impact of the 100 to 125 micron size addition of silicon carbide (Si...
Silicon carbide particle reinforced aluminum matrix composites have been developed over past few dec...
AbstractAluminium alloy materials found to the best alternative with its unique capacity of designin...
People propose higher and higher demands for lightweight materials due to the increasing shortage of...