Effect of ultrafine SiC particles on microstructure and property of milled nanocrystalline AZ91 magnesium alloys

Effect of ultrafine SiC particles on microstructure and property of milled nanocrystalline AZ91 magnesium alloys

The SiC particle (SiCp) reinforced magnesium matrix composite powders (AZ91‒xSiCp, x=5%, 10%, 15%, volume fraction) were synthesized by mechanical milling. After the mechanical milling, the grain size of the magnesium matrix was refined to nanoscale, and the ultrafine SiC particles were dispersed in...

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Bibliographic Details
Main Authors: ZHANG Su-qing, SU Qian, YU Huan, XIA Jin-huan, MA Bai-chang, ZHUANG Hai-hua, ZHOU Ji-xue
Format: Article
Language:zho
Published: Editorial Office of Powder Metallurgy Technology 2021-12-01
Series:Fenmo yejin jishu
Subjects:
powder metallurgy
nanocrystalline
magnesium matrix composites
ultrafine sic particles
particle reinforcement
Online Access:https://pmt.ustb.edu.cn/article/doi/10.19591/j.cnki.cn11-1974/tf.2019120003
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Summary:The SiC particle (SiCp) reinforced magnesium matrix composite powders (AZ91‒xSiCp, x=5%, 10%, 15%, volume fraction) were synthesized by mechanical milling. After the mechanical milling, the grain size of the magnesium matrix was refined to nanoscale, and the ultrafine SiC particles were dispersed into the magnesium matrix uniformly. The effect of SiCp on the microstructure of the milled nanocrystalline AZ91 magnesium alloys was analyzed. In the results, SiCp could accelerate the refining of magnesium matrix. Meanwhile, both the dissolving of Al element into the magnesium matrix and the refining of SiCp are inhibited due to the increasing of SiCp. The hardness of AZ91‒xSiCp composites (x=5%, 10%, 15%) is HV 166, HV 175, and HV 185, respectively. The contribution ratio of grain boundary strengthening, Orowan strengthening, solid solution strengthening, and load-bearing strengthening to the milled AZ91‒xSiCp composites is about 86.9%, 7.4%, 1.8% and 3.8%, respectively.
ISSN:1001-3784

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