In-situ ZrB2/AZ91D magnesium matrix composite was successfully synthesized with AI/K2ZrF6+NH4BF4 by means of Direct Melt Reaction. The fabricated ZrB2/AZ91D magnesium matrix composite through direct melt mixing metho...In-situ ZrB2/AZ91D magnesium matrix composite was successfully synthesized with AI/K2ZrF6+NH4BF4 by means of Direct Melt Reaction. The fabricated ZrB2/AZ91D magnesium matrix composite through direct melt mixing method was investigated. Results from X-ray diffraction (XRD) and energy dispersive X-ray spectroscopy (EDS) confirmed the existence of ZrB2 particles in the AZ91D alloy, and most ZrB2 particles were in the size range of just several microns, some even to 100 nm. The cast specimens were studied through corrosion testing and heat treatment. The average grain size of AZ91D decreased markedly from about 250 pm to 50 IJm. In addition, the shape and size of the ,β-MglTAI12 phase as well as the morphologies of primary a-Mg in the magnesium matrix composite were greatly changed. The network structure of the β-MglTAI12 phase was broken into small blocks and the size of a-Mg decreased significantly.展开更多
基金financially supported by the Specialized Research Fund Project for the Doctoral Program of Higher Education of China (No.20070299004)the Jiangsu Higher Education Institutions Natural Science Foundation Research Program (No.10KJD430003)+2 种基金the Jiangsu University Outstanding Talents Building Project (No.1213000004)the Jiangsu University Undergraduate Practice-Innovation Training Project (No.1201220038)Doctoral Foundation of Jiangsu University (No.1281220014)
文摘In-situ ZrB2/AZ91D magnesium matrix composite was successfully synthesized with AI/K2ZrF6+NH4BF4 by means of Direct Melt Reaction. The fabricated ZrB2/AZ91D magnesium matrix composite through direct melt mixing method was investigated. Results from X-ray diffraction (XRD) and energy dispersive X-ray spectroscopy (EDS) confirmed the existence of ZrB2 particles in the AZ91D alloy, and most ZrB2 particles were in the size range of just several microns, some even to 100 nm. The cast specimens were studied through corrosion testing and heat treatment. The average grain size of AZ91D decreased markedly from about 250 pm to 50 IJm. In addition, the shape and size of the ,β-MglTAI12 phase as well as the morphologies of primary a-Mg in the magnesium matrix composite were greatly changed. The network structure of the β-MglTAI12 phase was broken into small blocks and the size of a-Mg decreased significantly.
