A transforming interpenetrating-phase cermet with high strength and energy dissipation capacity

A transforming interpenetrating-phase cermet with high strength and energy dissipation capacity

Cermets generally exhibit a trade-off between strength and energy dissipation capacity. By applying a dual design strategy combining bioinspired architecting and metastability engineering, we developed a transforming interpenetrating-phase cermet made from zirconia ceramic preform infiltrated with a...

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Bibliographic Details
Main Authors: Shuangyue Jia, Wangshu Zheng, Daniel Wen Hao Lock, Linghai Li, Lei Zhao, Chee Lip Gan, Qiang Guo
Format: Article
Language:English
Published: Taylor & Francis Group 2025-01-01
Series:Materials Research Letters
Subjects:
Phase transformation
cermet
interpenetrating-phase composite
yield strength
energy dissipation
Online Access:https://www.tandfonline.com/doi/10.1080/21663831.2024.2418008
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Summary:Cermets generally exhibit a trade-off between strength and energy dissipation capacity. By applying a dual design strategy combining bioinspired architecting and metastability engineering, we developed a transforming interpenetrating-phase cermet made from zirconia ceramic preform infiltrated with an Al-Zn-Mg-Cu alloy. The cermet micro-pillars possessed compressive yield strengths of 773 ± 62 MPa and energy dissipation densities of 110 ± 8 MJ·m−3, 50% and 45% higher than those of the monolithic Al alloy, respectively. These results are attributed to the interpenetrating-phase architecture, stress-induced martensitic transformation in the ceramics, robust interfacial bonding, and high-density dislocations near the interfaces.
ISSN:2166-3831

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