Bending mechanical property and failure mechanisms of woven carbon fiber-reinforced aluminum alloy composite
来源期刊:Rare Metals2016年第12期
论文作者:Qiu-Rong Yang Jin-Xu Liu Shu-Kui Li Teng-Teng Wu
文章页码:915 - 919
摘 要:Copper-coated woven carbon fiber-reinforced aluminum alloy composite was prepared by spark plasma sintering(SPS). Microstructure, three-point bending mechanical property, and the failure mechanisms of the composite were investigated. Microstructure observation shows that the carbon fibers bond compactly with matrix alloy. Compared with the matrix aluminum alloy, the bending strength, ductility, fracture energy, and cracking resistance of the composite are evidently improved.Microstructure analyses reveal that the high specific strength of carbon fibers and transfer of stress from matrix alloy to carbon fibers are responsible for the increase of the composite bending strength. The expanding of cracks is restrained, and cracking resistance of the composite is improved by adding woven carbon fiber. Attributed to the carbon fibers’ debonding, cracks deflection, and multipath propagation mechanisms, the fracture energy of the composite increases.
Qiu-Rong Yang,Jin-Xu Liu,Shu-Kui Li,Teng-Teng Wu
School of Materials Science and Engineering,Beijing Institute of Technology
摘 要:Copper-coated woven carbon fiber-reinforced aluminum alloy composite was prepared by spark plasma sintering(SPS). Microstructure, three-point bending mechanical property, and the failure mechanisms of the composite were investigated. Microstructure observation shows that the carbon fibers bond compactly with matrix alloy. Compared with the matrix aluminum alloy, the bending strength, ductility, fracture energy, and cracking resistance of the composite are evidently improved.Microstructure analyses reveal that the high specific strength of carbon fibers and transfer of stress from matrix alloy to carbon fibers are responsible for the increase of the composite bending strength. The expanding of cracks is restrained, and cracking resistance of the composite is improved by adding woven carbon fiber. Attributed to the carbon fibers’ debonding, cracks deflection, and multipath propagation mechanisms, the fracture energy of the composite increases.
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