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From macro to micro: Bioinspired designs for tougher ceramics

材料科学 陶瓷 复合材料 盔甲 堆积 抗弯强度 偏转(物理) 图层(电子) 光学 核磁共振 物理
作者
Ehsan Azad,Hamidreza Yazdani Sarvestani,Behnam Ashrafi,Farjad Shadmehri,Mehdi Hojjati
出处
期刊:Journal of materials research and technology [Elsevier BV]
卷期号:31: 3310-3319 被引量:4
标识
DOI:10.1016/j.jmrt.2024.07.019
摘要

Ceramic materials, while strong, often lack flexibility and energy absorption. Inspired by tough natural structures like nacre, toughening strategies have shown significant potential in ceramic materials. This study investigates the static and cyclic flexural properties (i.e., energy absorption, stiffness, and strength) of the bioinspired ceramic-polymer composites, particularly concerning the influence of macro and micro patterns. Using a subtractive manufacturing platform enabled by ultra-short pulsed picosecond lasers, we engrave a range of macro and micro patterns onto alumina tiles, mimicking natural armor designs. The composites are then fabricated by stacking laser-engraved tiles with an interlayer of Surlyn®, a commercial monomer. The results demonstrate that the static/cyclic performance and toughening mechanisms are closely linked to the lasered bioinspired surface patterns and stacking sequence. Specific macro architectures and stacking sequences led to significantly increased energy absorption (up to 85%) through mechanisms like crack deflection and plastic deformation of the soft phase. Micro patterns, on the other hand, improved the ceramic's strength (up to 140%) by influencing how the materials interact at the interface. This research not only advances our understanding of bioinspired armor but also paves the way for a new generation of ceramic composites with superior properties, targeting applications in defense (aerospace and vehicle armor) and personal protective equipment (PPE).

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