Densification and Microstructure of Tungsten Ore/Al-Cu Composites by Combustion Synthesis

Gang Li; Yi Qing Guan; Ming Zhong Tang; Dong Li Shui

doi:10.4028/www.scientific.net/AMR.391-392.749

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Modeling of Adsorption Isotherms for Hydrogen on Zeolite ZSM-5
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A Review on Synthesis of High Performance Composites from Zircon
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Phase Formation of Fe-Mn Binary Alloy During Sub-Rapid Solidification
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Nano-Silver Paste with a Low Sintering Temperature
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Densification and Microstructure of Tungsten Ore/Al-Cu Composites by Combustion Synthesis
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Preparation of Coal Briquette by Using Coal Waste and Coal Slurry
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Structure Design and Force Analysis of Dushan Inverted Siphon Engineering
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Research on Microstructure and Properties of Welded Joint of 2205 Steel with FCAW
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Study on Weldablity of Dissimilar Steel between 16MnR and S31803
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Densification and Microstructure of Tungsten Ore/Al-Cu Composites by Combustion Synthesis

Abstract:

Tungsten ore doped Al/Cu alloy powder compact was processed by laser combustion synthesis (CS). Optical microscopy (OM), scanning electron microscopy (SEM) and transmission electron microscopy (TEM) were used to study the effect of laser processing and pressing pressure on microstructure and density of the alloy. The results show that the compactness increases, the microstructure is refined and the uniformity is promoted within a certain range. As the relative density increases, the densification of the product increases. The sintered alloy is mainly made from matrix phase of higher toughness mixed up with intermetallic compounds of high dispersion, and nanocrystals, which is compound texture.