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Seedcoat Suture Tessellation: Amplifying Strength, Toughness, and Auxeticity via Wavy Sutural Tessellation in Plant Seedcoats (Adv. Mater. 36/2018)
Advanced Materials ( IF 27.4 ) Pub Date : 2018-09-03 , DOI: 10.1002/adma.201870274 Chao Gao 1 , Benjamin P. J. Hasseldine 1 , Ling Li 2 , James C. Weaver 3 , Yaning Li 1
Advanced Materials ( IF 27.4 ) Pub Date : 2018-09-03 , DOI: 10.1002/adma.201870274 Chao Gao 1 , Benjamin P. J. Hasseldine 1 , Ling Li 2 , James C. Weaver 3 , Yaning Li 1
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Inspired by the wavy sutural tessellations in the seed coats of flowering plants, in article number 1800579, Yaning Li and co‐workers explore a new design concept for mutually amplifying strength and toughness in tiled composites. By tuning the waviness and material contrast of the suture tessellation, the composites can also exhibit negative Poisson's ratio. This concept is proved via mechanical experiments on 3D‐printed two‐phase prototypes.
中文翻译:
种皮缝合线细分化:通过植物种皮中的波浪状缝合线细分化来增强强度,韧性和膨胀性(Adv。Mater。36/2018)
受开花植物种皮中波浪状缝合线镶嵌的启发,李亚宁及其同事在编号为1800579的文章中探索了一种新的设计概念,以相互增强瓷砖复合材料的强度和韧性。通过调整缝线细分的波纹度和材料对比度,复合材料还可以表现出负的泊松比。通过在3D打印的两阶段原型上进行的机械实验证明了这一概念。
更新日期:2018-09-03
中文翻译:
种皮缝合线细分化:通过植物种皮中的波浪状缝合线细分化来增强强度,韧性和膨胀性(Adv。Mater。36/2018)
受开花植物种皮中波浪状缝合线镶嵌的启发,李亚宁及其同事在编号为1800579的文章中探索了一种新的设计概念,以相互增强瓷砖复合材料的强度和韧性。通过调整缝线细分的波纹度和材料对比度,复合材料还可以表现出负的泊松比。通过在3D打印的两阶段原型上进行的机械实验证明了这一概念。
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