薏米总苞中的功能分级结构

IF 3.1 3区 计算机科学 Q1 ENGINEERING, MULTIDISCIPLINARY
Rikima Kuwada, Daisuke Ishii
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引用次数: 0

摘要

大自然中充满了既坚固又轻便的材料,例如骨头、牙齿、竹子、贝壳、节肢动物的外骨骼和坚果壳。通过分析这些材料不断变化的化学成分和结构特征以及机械性能所获得的洞察力,已被用于开发创新、耐用和轻质的材料,如用于冲击吸收的材料。这项研究的重点是薏米(Coix lacryma-jobi var. lacryma-jobi)的总苞,总苞富含二氧化硅,质地坚硬,具有包裹种子的作用。利用扫描电子显微镜和能量色散 X 射线光谱以及黄褐素染色光学显微镜观察了总苞的化学成分和结构特征。使用显微维氏硬度试验测量了总苞内外表面的硬度,并使用纳米压痕法测量了总苞横截面的杨氏模量。此外,还通过压缩试验和三点弯曲试验测量了总苞的断裂行为。结果表明,从总苞的外层到内层,化学成分以及组织的方向和尺寸都发生了平稳过渡。此外,据估计,杨氏模量的空间梯度是由于二氧化硅沉积的梯度造成的。通过将硬脆的二氧化硅分布在外层,将弹塑性有机成分分布在中层和内层,总苞可以有效地应对加载到总苞外部时产生的压缩和拉伸应力。此外,粗壮的纤维血管束、纤维束和内层的细叶脉纤维在经向和赤道向都对总苞进行了加固。从这些因素中可以发现,总苞对来自外部的负荷表现出很高的韧性,使其不易开裂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Functionally graded structures in the involucre of Job’s tears
Nature is filled with materials that are both strong and light, such as bones, teeth, bamboo, seashells, arthropod exoskeletons, and nut shells. The insights gained from analyzing the changing chemical compositions and structural characteristics, as well as the mechanical properties of these materials, have been applied in developing innovative, durable, and lightweight materials like those used for impact absorption. This research concentrates on the involucres of Job’s tears (Coix lacryma-jobi var. lacryma-jobi), which are rich in silica, hard, and serve to encase the seeds. The chemical composition and structural characteristics of involucres were observed using scanning electron microscopy and energy-dispersive x-ray spectroscopy and optical microscopy with safranin staining. The hardness of the outer and inner surfaces of the involucre was measured using the micro-Vickers hardness test, and the Young’s modulus of the involucre’s cross-section was measured using nanoindentation. Additionally, the breaking behavior of involucres was measured through compression test and three-point bending tests. The results revealed a smooth transition in chemical composition, as well as in the orientation and dimensions of the tissues from the outer to the inner layers of involucres. Furthermore, it was estimated that the spatial gradient of the Young’s modulus is due to the gradient of silica deposition. By distributing the hard, brittle silica in the outer layer and elastoplastic organic components in the middle and inner layers, the involucres effectively respond to compressive and tensile stresses that occur when loads are applied to the outside of the involucre. Furthermore, the involucres are reinforced in both meridional and equatorial directions by robust fibrovascular bundles, fibrous bundles, and the inner layer’s sclerenchyma fibers. From these factors, it was found that involucres exhibit high toughness against loads from outside, making it less prone to cracking.
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来源期刊
Bioinspiration & Biomimetics
Bioinspiration & Biomimetics 工程技术-材料科学:生物材料
CiteScore
5.90
自引率
14.70%
发文量
132
审稿时长
3 months
期刊介绍: Bioinspiration & Biomimetics publishes research involving the study and distillation of principles and functions found in biological systems that have been developed through evolution, and application of this knowledge to produce novel and exciting basic technologies and new approaches to solving scientific problems. It provides a forum for interdisciplinary research which acts as a pipeline, facilitating the two-way flow of ideas and understanding between the extensive bodies of knowledge of the different disciplines. It has two principal aims: to draw on biology to enrich engineering and to draw from engineering to enrich biology. The journal aims to include input from across all intersecting areas of both fields. In biology, this would include work in all fields from physiology to ecology, with either zoological or botanical focus. In engineering, this would include both design and practical application of biomimetic or bioinspired devices and systems. Typical areas of interest include: Systems, designs and structure Communication and navigation Cooperative behaviour Self-organizing biological systems Self-healing and self-assembly Aerial locomotion and aerospace applications of biomimetics Biomorphic surface and subsurface systems Marine dynamics: swimming and underwater dynamics Applications of novel materials Biomechanics; including movement, locomotion, fluidics Cellular behaviour Sensors and senses Biomimetic or bioinformed approaches to geological exploration.
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