Abstract
A study has been made on the mechanical properties of an aluminum alloy matrix (Al–3.0wt% Cu–1.5 wt% Mg–0.4wt% Mn)composites reinforced with a volume fraction of 15% silicon carbide under hot- and cold-rolling conditions. The preferred crystallite orientation distribution functions (ODFs) of these rolled sheets were measured. The tensile test results showed that the ultimate tensile strength and plasticity of the hot-rolled composite sheet are better than those of the cold-rolled one. However, the cold-rolled sheet specimen exhibits much higher 0.2% offset yield strength than that in the case of hot rolling. The cold-rolling texture of this sheet composite is obtained from the development of hot-rolled texture only by a little rotation about the related axes. It consists of random texture and three weak components, {001}〈110〉, {110}〈112〉 and {3314}〈773〉, while the hot rolling texture of the metal-matrix composite (MMC) sheet is almost random under the rolling reduction employed. The preferred grain orientation has effect on the yield strength and no much influence on the ultimate tensile strength of the cold rolled sheet. The decrease in the ultimate tensile strength of the cold-rolled specimen is mainly attributed to the micro-damages in the microstructure produced during cold rolling.
Highlights
Reinforced metal-matrix composites (MMCs), especially the particulate-reinforced aluminum-matrix composites, exhibit an improved strength and stiffness
After mechanical blending of the mixed powder for over 12 h, the preform of the MMCs was degassed and hot pressed at 873 K for about h with a vacuum of 10-3 bar
The textures of the MMC sheets were described by orientation distribution functions (ODFs) analysis
Summary
Reinforced metal-matrix composites (MMCs), especially the particulate-reinforced aluminum-matrix composites, exhibit an improved strength and stiffness. There are several routes for producing this kind ofmaterial, which can be classified into solid route and molten route according to the ways by which the reinforcement may be introduced The solid route, such as powder metallurgy (PM) method, offers the most flexibility in blending the powder and has no limitations in the alloy chemistry, volume fraction, size and particle type of the reinforcement etc. One of the prime advantages of the particulate MMCs is that the billets ofthe composites can be mechanically processed using the conventional technologies developed for monolithic alloys. It has improved specific properties, one fatal weakness of this kind of materials is their limited elongations, usually no more than 3% when the content of the reinforcement is added up to 15% as reported
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