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A comparative study on the microstructure and strengthening behaviors of Al matrix composites containing micro- and nano-sized B4C particles

Tian Xu, Qingsong Mei, Lingyi Liao, Yukun Ma, Zhihua Chen, Y.C. Wang, J.Y. Li

2023Materials Science and Engineering A30 citationsDOIOpen Access PDF

Abstract

Two types of Al matrix composites (AMCs) containing micro-sized B 4 C particles (m-B 4 C/Al) and nano-sized particles (n-B 4 C/Al) were prepared by hybrid accumulative roll-bonding. The influences of m-B 4 C and n-B 4 C particles on the microstructure and mechanical properties of the AMCs were investigated systematically. Microstructure observations showed that B 4 C particles were uniformly distributed in the matrix with well-bonded interfaces in both the two types of composites. The n-B 4 C/Al composites presented finer grain size compared to the m-B 4 C/Al, indicating that n-B 4 C particles are more effective in enhancing the grain refinement and suppressing the grain growth than m-B 4 C particles. While the n-B 4 C/Al composites exhibited higher microhardness and strength , the m-B 4 C/Al composites showed higher elongation. Moreover, the strain hardening rate of the n-B 4 C/Al composites was higher at the initial stage of plastic deformation , but lower than that of the m-B 4 C/Al composites at larger strain. Furthermore, nanoindentation tests showed an obvious increment of nanohardness with the increase of deformation in the m-B 4 C/Al composites. The different strengthening behaviors of m-B 4 C and n-B 4 C particles can be attributed to the particle-dislocation interactions at different stages of plastic deformation . This work demonstrated the significant differences between the deformation and strengthening behaviors of AMCs reinforced by micro- and nano-sized B 4 C particles, providing novel insights for the design of AMCs with high strength and toughness by taking advantages of the hybrid-sized reinforcement particles .

Topics & Concepts

Materials scienceMicrostructureComposite materialBoron carbideNanoindentationToughnessStrengthening mechanisms of materialsDeformation (meteorology)Strain hardening exponentIndentation hardnessGrain sizeAluminum Alloys Composites PropertiesMagnesium Alloys: Properties and ApplicationsAdvanced ceramic materials synthesis