Research on the Sintering Process of the Fe-Al-WC Composite Materials

Nian Liu; Guo Dong Zhang; Guang Ren

doi:10.4028/www.scientific.net/AMM.281.400

Paper Titles

Research on Thermal Character of Inorganic High Temperature Phase Change Materials
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The Activities of NO Oxidation over the Pt/γ-Al₂O₃Catalyst
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A Simulation Study on the Effect of Micro-Textured Tools during Orthogonal Cutting of Titanium Alloy Ti-6Al-4V
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The Mechanical Properties of 20MnSi Steel and Welding Research
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Research on the Sintering Process of the Fe-Al-WC Composite Materials
p.400

Experimental Study on Anti-Friction Property of Groove Textured Surface with Different Direction Angles
p.404

Deposition Mechanism and Wear Resistance Nano Ni-Al₂O₃ Composite Coatings
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Structure and Magnetostriction of Pr_xTb_1-xFe_1.9Ti_0.1 Alloys
p.413

Reflow Soldering Process Virtual Test Based on BPNN-GA and ANSYS
p.417

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 281Research on the Sintering Process of the Fe-Al-WC...

Research on the Sintering Process of the Fe-Al-WC Composite Materials

Abstract:

Fe-Al-WC composite materials were synthesized via Spark Plasma Sintering process. These obtained Fe-Al-WC composite materials have a nearly full density and uniform hardness distribution. SPS parameters namely relative atomic ratio of WC, sintering temperature and axial pressure were optimized through gray relational analysis with the considerations of multiple performance characteristics including average and mean square deviation of the micro hardness of every sample and their volume density. The result indicated that this SPS process could be improved effectively through this approach, which was useful in the optimization of SPS parameters for synthesizing Fe-Al-WC composite materials.