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Strong and tough magnesium-MAX phase composites with nacre-like lamellar and brick-and-mortar architectures

Yanyan Liu, Xi Xie, Zengqian Liu, Qin Yu, Xuegang Wang, Shaogang Wang, Qing Jia, Zhefeng Zhang, Rui Yang, Robert O. Ritchie

2023Communications Materials24 citationsDOIOpen Access PDF

Abstract

Abstract Bioinspired nacre-like structures are effective in toughening materials, yet are difficult to construct in magnesium-ceramic systems. Here, a set of magnesium-MAX phase composites with nacre-like lamellar and brick-and-mortar architectures are fabricated by pressureless infiltration of the magnesium melt into ice-templated Ti 3 AlC 2 ceramic scaffolds. The structure and mechanical properties of the composites are elucidated with a special focus on the effects of the types of architectures (lamellar or brick-and-mortar) and matrices (pure magnesium or AZ91D alloy) on the toughening mechanisms. The nacre-like architectures are found to play a role in blunting the cracks via plastic deformation and microcracking, and shielding the cracks from applied stress by promoting crack deflection and uncracked-ligament bridging mechanisms. These composites achieve a good combination of specific strength and fracture toughness, which are superior to many other reported magnesium-ceramic and nacre-like metal-ceramic composite materials.

Topics & Concepts

Materials scienceComposite materialCeramicLamellar structureMagnesiumToughnessFracture toughnessComposite numberMagnesium alloyMortarMicrostructureMetallurgyMXene and MAX Phase MaterialsBone Tissue Engineering MaterialsAluminum Alloys Composites Properties
Strong and tough magnesium-MAX phase composites with nacre-like lamellar and brick-and-mortar architectures | Litcius