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Effects of sonication amplitude on the microstructure and mechanical properties of AZ91E magnesium alloy 被引量:1
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作者 P.Emadi B.Andilab c.ravindran 《Journal of Magnesium and Alloys》 SCIE EI CAS CSCD 2022年第12期3397-3405,共9页
Light metals are gaining increased attention due to ecological sustainability concerns and strict emission regulations. Magnesium(Mg)is one such metal that has the potential to replace high density components, which c... Light metals are gaining increased attention due to ecological sustainability concerns and strict emission regulations. Magnesium(Mg)is one such metal that has the potential to replace high density components, which can reduce emissions through lightweighting. However,the mechanical properties of Mg alloys must be improved for them to become viable candidates for structural applications. To this end, the current study examines the effect of sonication vibrational amplitude on the microstructure and mechanical properties of AZ91E Mg alloy.The molten alloys were subjected to ultrasonic treatment at a frequency of 20 kHz, 180 s of processing time and vibrational amplitudes ranging from 1.25 to 15 μm. The resultant castings were characterized using optical microscopy, scanning electron microscopy and tensile testing. It was found that sonication with amplitudes up to 7.5 μm was able to effectively refine the secondary phases of the alloy. Similar trends were observed for grain size and yield strength. The refinement in microstructure was likely caused by the finer grain size and cavitation induced undercooling of the liquid metal. In addition, it was also noted that even the lowest level of amplitude(1.25 μm) was able to increase the density, improve the ultimate tensile strength and ductility of the castings. The tensile strength and ductility were thought to have been enhanced by ultrasonic degassing and refinement in microstructure, while the yield strength was improved through the Hall-Petch effect. The results from this study provided a basis for optimizing the sonication process and promoting its use in industry. As a result, Mg alloys improved through ultrasonic processing have the potential to replace higher density components, with consequent energy efficiency and environmental and ecological benefits. 展开更多
关键词 Magnesium Casting and solidification Ultrasonic processing Vibrational amplitude Grain refinement Mechanical properties
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