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MICROMECHANICAL MODELS OF HELICAL FIBER ORGANIZATION IN CRIMPED TENDON AND LIGAMENT FIBERS PREDICT LARGE POISSON'S RATIOS

机译：卷曲肌腱和韧带纤维中螺旋纤维组织的微观力学模型预测大泊松比

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The Poisson's ratio is a measure of how much lateral contraction occurs in response to a uniaxial tensile strain, therefore making it a metric of the volumetric behavior of a material. A Poisson's ratio greater than 0.5 for an isotropic material subjected to uniaxial tension is indicative of volume loss, which in the scheme of biphasic theory is believed to be manifested as fluid exudation. Experimentally obtained values for the Poisson's ratio range from 0.8 in rat tail tendon, 1.3 in capsular ligament to 3.0 in flexor tendon [1,2,3]. In spite of the important implications of this volumetric response the micromechanical origins of these large Poisson's ratios have been largely uninvestigated.

机译：泊松比是响应单轴拉伸应变而发生多少横向收缩的量度，因此使其成为材料体积行为的度量。对于经受单轴拉伸的各向同性材料，泊松比大于0.5表示体积损失，在双相理论的方案中，体积损失被认为表现为流体渗出。实验获得的泊松比值范围从大鼠尾腱的0.8，包膜韧带的1.3到屈肌腱的3.0 [1,2,3]。尽管具有这种体积响应的重要意义，但仍未对这些大泊松比的微机械起源进行过调查。

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《ASME summer bioengineering conference;SBC2009》|2009年|P.305-306|共2页
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Reese S P; Maas S A; Weiss J A;
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中图分类人体工程学;
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专利

1. Micromechanical models of helical superstructures in ligament and tendon fibers predict large Poisson's ratios. [J] . Reese SP, Maas SA, Weiss JA Journal of Biomechanics . 2010,第7期

机译：韧带和肌腱纤维螺旋上层结构的微力学模型预测大的泊松比。
2. A finite-strain micromechanical model for the hyperelasticity of tendons and ligaments with crimped fibers [J] . Xiao Shengsheng, Sun Shu-Yi, Xu Guang-Kui, Mechanics of materials . 2021,第Sepa期

机译：具有卷曲纤维的肌腱和韧带的高弹性的有限应变微机械模型
3. Micromechanical poroelastic finite element and shear-lag models of tendon predict large strain dependent Poisson's ratios and fluid expulsion under tensile loading [J] . Ahmadzadeh Hossein, Freedman Benjamin R., Connizzo Brianne K., Acta biomaterialia . 2015,第Null期

机译：肌腱的微机械多孔弹性有限元和剪力滞后模型预测了大的应变相关泊松比和拉伸载荷下的流体排出
4. THE EFFECT OF FIBER MICROSTRUCTURE ON THE OBSERVED POISSON'S RATIO OF TENDON AND LIGAMENT TISSUE [C] . Shawn P. Reese, Steve A. Maas, Heath A. Henninger, ASME summer bioengineering conference;SBC2008 . 2009

机译：纤维微结构对肌腱和韧带组织的泊松比的影响
5. Development of non-destructive infrared fiber optic method for assessment of ligament and tendon composition. [D] . Padalkar, Mugdha Vijay. 2016

机译：开发用于评估韧带和肌腱成分的无损红外光纤方法。
6. Micromechanical Models of Helical Superstructures in Ligament and Tendon Fibers Predict Large Poisson’s Ratios [O] . Shawn P. Reese, Steve A. Maas, Jeffrey A. Weiss -1

机译：韧带和肌腱纤维中螺旋上部结构的微机械模型预测大泊松的比例
7. Micromechanical poroelastic finite element and shear-lag models of tendon predict large strain dependent Poisson’s ratios and fluid expulsion under tensile loading [O] . Hossein Ahmadzadeh, Benjamin R. Freedman, Brianne K. Connizzo, 2015

机译：肌腱的微机械孔隙弹性有限元和剪切滞后模型预测拉伸载荷下的大应变依赖性泊松比率和液体排出

MICROMECHANICAL MODELS OF HELICAL FIBER ORGANIZATION IN CRIMPED TENDON AND LIGAMENT FIBERS PREDICT LARGE POISSON'S RATIOS

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