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A Flexible Strain Sensor Based on a Conductive Polymer Composite for in situ Measurement of Parachute Canopy Deformation

机译：基于导电聚合物复合材料的挠性应变传感器，用于降落伞冠层变形的原位测量

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摘要

A sensor based on a Conductive Polymer Composite (CPC), fully compatible with a textile substrate and its general properties, has been developed in our laboratory, and its electromechanical characterization is presented herein. In particular the effects of strain rate (from 10 to 1,000 mm/min) and of repeated elongation cycles on the sensor behaviour are investigated. The results show that strain rate seems to have little influence on sensor response. When submitted to repeated tensile cycles, the CPC sensor is able to detect accurately fabric deformations over each whole cycle, taking into account the mechanical behaviour of the textile substrate. Complementary information is given concerning the non-effect of aging on the global resistivity of the CPC sensor. Finally, our sensor was tested on a parachute canopy during a real drop test: the canopy fabric deformation during the critical inflation phase was successfully measured, and was found to be less than 9%.

机译：在我们的实验室中，已经开发出了一种基于导电聚合物复合材料（CPC）的传感器，该传感器与纺织品基材及其一般性能完全兼容，在此介绍其机电特性。特别地，研究了应变速率（从10到1,000 mm / min）和重复的伸长循环对传感器性能的影响。结果表明，应变率似乎对传感器响应影响很小。考虑到织物基材的机械性能，在经受重复的拉伸循环后，CPC传感器能够在每个整个循环中准确检测织物变形。给出了有关老化对CPC传感器整体电阻率的影响的补充信息。最终，我们的传感器在降落伞顶篷上进行了真实跌落测试：临界充气阶段的顶篷织物变形已成功测量，发现小于9％。

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Cochrane, Cédric; Lewandowski, Maryline; Koncar, Vladan;
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年度 2010
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正文语种 {"code":"en","name":"English","id":9}
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专利

1. A Flexible Strain Sensor Based on a Conductive Polymer Composite for in situ Measurement of Parachute Canopy Deformation [J] . C#x000E9, dric Cochrane, Maryline Lewandowski, Sensors . 2010,第9期

机译：基于导电聚合物复合材料的挠性应变传感器，用于降落伞冠层变形的原位测量
2. Design and Development of a Flexible Strain Sensor for Textile Structures Based on a Conductive Polymer Composite [J] . C#x000E9, dric Cochrane, Claude Dufour, Sensors . 2007,第4期

机译：基于导电聚合物复合材料的织物结构柔性应变传感器的设计与开发
3. Effect of hybridization of silica in the electromechanical properties of large strain strain sensor based on conductive polymer-elastomer hybrid prepared via in situ vapor phase polymerization [J] . Yeon Jae Kim, Dae dong Park, Pauline May A. Losaria, Archives in Chemical Research . 2020,第5期

机译：基于原位气相聚合制备的基于导电聚合物 - 弹性体杂交体的大菌株应变传感器机电性能杂交的影响
4. Parachute Strain and Deformation Measurements using Imaging and Polymer Strain Sensors [C] . A. Carney, C. Niezrecki, E. Niemi, 19th AIAA Aerodynamic Decelerator Systems Technology Conference and Seminar; AIAA Balloon Systems Conference . 2007

机译：使用成像和聚合物应变传感器的降落伞应变和变形测量
5. A novel method for characterizing the in-situ residual strain development during polymer matrix composites manufacturing process using carbon fiber sensor. [D] . Mori, Kazuhiro. 2008

机译：一种使用碳纤维传感器表征聚合物基复合材料制造过程中原位残余应变发展的新方法。
6. A Flexible Strain Sensor Based on a Conductive Polymer Composite for in situ Measurement of Parachute Canopy Deformation [O] . Cédric Cochrane, Maryline Lewandowski, Vladan Koncar 2010

机译：基于导电聚合物复合材料的挠性应变传感器用于降落伞冠层变形的原位测量
7. A Flexible Strain Sensor Based on a Conductive Polymer Composite for in situ Measurement of Parachute Canopy Deformation [O] . Vladan Koncar, Maryline Lewandowski, Cédric Cochrane 2010

机译：基于导电聚合物复合材料的柔性应变传感器原位测量降落伞冠层变形

A Flexible Strain Sensor Based on a Conductive Polymer Composite for in situ Measurement of Parachute Canopy Deformation

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