In situ fabrication of α-Al 2O 3 and Ni 2Al 3 reinforced aluminum matrix composites in an Al–Ni 2O 3 system

α-Al 2O 3 ceramic particles and Ni 2Al 3 intermetallic compound reinforced aluminum matrix composites were successfully fabricated via exothermic dispersion (XD) reaction in an Al–Ni 2O 3 system. Thermodynamic analysis indicated that the reaction between Al and Ni 2O 3 could occur spontaneously due...

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Published in	Advanced powder technology : the international journal of the Society of Powder Technology, Japan Vol. 22; no. 5; pp. 629 - 633
Main Authors	Zhu, Heguo, Ai, Yinglu, Li, Jianliang, Min, Jing, Chu, Da, Zhao, Jun, Chen, Jie
Format	Journal Article
Language	English
Published	Elsevier B.V 01.09.2011
Subjects	Chemical synthesis Composites Differential scanning calorimetry (DSC) Thermodynamic properties X-ray diffraction X-ray diffraction Composites Differential scanning calorimetry (DSC) Chemical synthesis Thermodynamic properties
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Abstract	α-Al 2O 3 ceramic particles and Ni 2Al 3 intermetallic compound reinforced aluminum matrix composites were successfully fabricated via exothermic dispersion (XD) reaction in an Al–Ni 2O 3 system. Thermodynamic analysis indicated that the reaction between Al and Ni 2O 3 could occur spontaneously due to its negative Gibbs free energy. The reaction characteristic was discussed by using X-ray diffraction (XRD) method and differential scanning calorimetry (DSC) analysis. The results showed that the reactions of the Al–Ni 2O 3 system consisted of two steps as following: (1) the Al firstly reacted with Ni 2O 3 to form the stable α-Al 2O 3 particles and active Ni atoms; (2) the active Ni atoms further reacted with Al to form Ni 2Al 3. The values of activation energy of the two step reactions were around 457.3 and 282.4 kJ/mol, respectively. The scanning electron microscopy (SEM) and energy dispersive spectrometer (EDS) revealed that the Ni 2Al 3 blocks were uniformly distributed throughout the matrix, while the α-Al 2O 3 particles were slightly segregated in the matrix. The strength of the composite is controlled by the strength of Ni 2Al 3 phase, and the tensile strength and the elongation rate of the composite with 30 vol.% reinforcement volume fraction are 210 MPa and 8%, respectively.
AbstractList	α-Al 2O 3 ceramic particles and Ni 2Al 3 intermetallic compound reinforced aluminum matrix composites were successfully fabricated via exothermic dispersion (XD) reaction in an Al–Ni 2O 3 system. Thermodynamic analysis indicated that the reaction between Al and Ni 2O 3 could occur spontaneously due to its negative Gibbs free energy. The reaction characteristic was discussed by using X-ray diffraction (XRD) method and differential scanning calorimetry (DSC) analysis. The results showed that the reactions of the Al–Ni 2O 3 system consisted of two steps as following: (1) the Al firstly reacted with Ni 2O 3 to form the stable α-Al 2O 3 particles and active Ni atoms; (2) the active Ni atoms further reacted with Al to form Ni 2Al 3. The values of activation energy of the two step reactions were around 457.3 and 282.4 kJ/mol, respectively. The scanning electron microscopy (SEM) and energy dispersive spectrometer (EDS) revealed that the Ni 2Al 3 blocks were uniformly distributed throughout the matrix, while the α-Al 2O 3 particles were slightly segregated in the matrix. The strength of the composite is controlled by the strength of Ni 2Al 3 phase, and the tensile strength and the elongation rate of the composite with 30 vol.% reinforcement volume fraction are 210 MPa and 8%, respectively.
Author	Zhu, Heguo Ai, Yinglu Li, Jianliang Min, Jing Zhao, Jun Chen, Jie Chu, Da
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Snippet	α-Al 2O 3 ceramic particles and Ni 2Al 3 intermetallic compound reinforced aluminum matrix composites were successfully fabricated via exothermic dispersion...
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Title	In situ fabrication of α-Al 2O 3 and Ni 2Al 3 reinforced aluminum matrix composites in an Al–Ni 2O 3 system
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