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Cushioning Performance of Hilbert Fractal Sandwich Packaging Structures under Quasi-Static Compressions
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作者 xingye xu Haiyan Song Lijun Wang 《Computer Modeling in Engineering & Sciences》 SCIE EI 2023年第4期275-292,共18页
The sandwich structure of cushioning packaging has an important influence on the cushioning performance.Mathematical fractal theory is an important graphic expression.Based on Hilbert fractal theory,a new sandwich str... The sandwich structure of cushioning packaging has an important influence on the cushioning performance.Mathematical fractal theory is an important graphic expression.Based on Hilbert fractal theory,a new sandwich structure was designed.The generation mechanism and recurrence formula of theHilbert fractal were expressed by Lin’s language,and the second-orderHilbert sandwich structure was constructed fromthermoplastic polyurethane.The constitutive model of the hyperelastic body was established by using the finite element method.With the unit mass energy absorption as the optimization goal,the fractal sandwich structure was optimized,and the best result was obtained when the order was 2.5 and the unit layer thickness was 0.75 mm.TheHilbert sandwich structure was compared with the rice-shaped sandwich structure commonly used in industry,and the Hilbert fractal structure had better energy absorption.This has practical significance for the development and application of newcushioning packaging structures. 展开更多
关键词 Hilbert fractal sandwich structure static compression buffer packaging
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循环拉伸-松弛处理对聚二甲基硅氧烷/碳纳米管/碳纤维柔性力敏材料性能影响规律 被引量:1
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作者 胡海龙 许星烨 +6 位作者 应程 陈海 徐成成 付旭东 刘清亭 胡圣飞 张荣 《高分子材料科学与工程》 EI CAS CSCD 北大核心 2020年第8期93-97,103,共6页
为了探究循环拉伸-松弛后处理对聚合物基柔性力敏材料性能的影响规律,文中以聚二甲基硅氧烷(PDMS)/碳纳米管(CNTs)/碳纤维(CF)柔性力敏材料为对象,测试其在循环拉伸-松弛处理期间及循环拉伸-松弛处理后电阻值随应变的变化,并从导电填料... 为了探究循环拉伸-松弛后处理对聚合物基柔性力敏材料性能的影响规律,文中以聚二甲基硅氧烷(PDMS)/碳纳米管(CNTs)/碳纤维(CF)柔性力敏材料为对象,测试其在循环拉伸-松弛处理期间及循环拉伸-松弛处理后电阻值随应变的变化,并从导电填料的局部重新分布的角度进行阐释。结果发现,循环拉伸-松弛处理后复合材料的电阻率降低可达到45%,且应变敏感性提高近4倍。这归因于循环拉伸-松弛处理过程中PDMS分子链段对导电填料的剪切作用使得导电填料经历局部重排,且循环拉伸-松弛过程所施加的应变越大,PDMS分子链段的剪切作用的影响越大,局部重排的效果会越明显。 展开更多
关键词 柔性力敏材料 循环拉伸-松弛 剪切作用
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