Morphology characterization and in-situ three-dimensional strain field monitor of short carbon fiber-reinforced polymer composites under tension

Wang Panding; Wen Jiawei; Lei Hongshuai; Xu Baosheng; Liu Yang; Yang Le; Fang Daining

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Morphology characterization and in-situ three-dimensional strain field monitor of short carbon fiber-reinforced polymer composites under tension

机译：张力下短碳纤维增强聚合物复合材料的形态学特征及原位三维应变现场监测

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In-situ Micro X-ray computed tomography (?CT) offers a new opportunity to monitor the 3D morphology and damage evolution of short carbon fiber-reinforced polymer (SCFRP) composite. However, the sample size of in -situ ?CT is generally limited to achieve high revolution, which resulted in different mechanical behavior compared with that obtained from standard samples. In this study, ?CT scans with two resolutions were combined to character the 3D geometrical morphology and monitor the 3D deformation fields of SCFRP composites under tension. High resolution ?CT scans with voxel size of 0.68 ?m were used to quantify the geometric characteristics of fibers and void defects inside small samples. Low resolution in-situ ?CT scans with voxel size of 4 ?m and digital volume correlation method were utilized to monitor the 3D deformation fields of standard specimens under tension. The failure behavior of SCFRP was determined by the micro geometric morphology. The fracture surface under tension is oriented along 120? and 240? in the XY plane, which is consistent with the fiber and debonding distribution.

机译：原位微型X射线计算机断层扫描（？CT）提供了监控短碳纤维增强聚合物（SCFRP）复合材料的3D形态和损伤演化的新机会。然而，-Situ的样品大小通常限于实现高旋转，从标准样品中获得的比较，导致不同的机械行为。在这项研究中，用两种分辨率的CT扫描组合到特征3D几何形态，并监控张力下SCFRP复合材料的3D变形领域。高分辨率？CT扫描具有0.68Ωm的体素尺寸为0.68Ω·m来量化小样本内纤维的几何特征和空隙缺陷。使用低分辨率的原位？CT扫描具有4μm和数字体积相关方法的体素尺寸和数字体积相关方法，以监测张力下标准样品的3D变形领域。 SCFRP的失败行为由微观几何形态决定。张力下的断裂表面沿120°和240？在XY平面上，这与光纤和剥离分布一致。

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来源
《Composite Structures》 |2021年第4期|113634.1-113634.7|共7页
作者
Wang Panding; Wen Jiawei; Lei Hongshuai; Xu Baosheng; Liu Yang; Yang Le; Fang Daining;
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作者单位

Beijing Inst Technol Inst Adv Struct Technol Beijing 100081 Peoples R China|Beijing Inst Technol Beijing Key Lab Lightweight Multifunct Composite Beijing 100081 Peoples R China|Beijing Inst Technol State Key Lab Explos Sci & Technol Beijing 100081 Peoples R China;

Beijing Inst Technol Inst Adv Struct Technol Beijing 100081 Peoples R China|Beijing Inst Technol Beijing Key Lab Lightweight Multifunct Composite Beijing 100081 Peoples R China|Beijing Inst Technol State Key Lab Explos Sci & Technol Beijing 100081 Peoples R China;

Beijing Inst Technol Inst Adv Struct Technol Beijing 100081 Peoples R China|Beijing Inst Technol Beijing Key Lab Lightweight Multifunct Composite Beijing 100081 Peoples R China|Beijing Inst Technol State Key Lab Explos Sci & Technol Beijing 100081 Peoples R China;

Beijing Inst Technol Inst Adv Struct Technol Beijing 100081 Peoples R China|Beijing Inst Technol Beijing Key Lab Lightweight Multifunct Composite Beijing 100081 Peoples R China|Beijing Inst Technol State Key Lab Explos Sci & Technol Beijing 100081 Peoples R China;

Nanjing Tech Univ Sch Mech & Power Engn Nanjing 211816 Peoples R China;

Tsinghua Univ Dept Engn Mech CNMM AML Beijing 100084 Peoples R China;

Beijing Inst Technol Inst Adv Struct Technol Beijing 100081 Peoples R China|Beijing Inst Technol Beijing Key Lab Lightweight Multifunct Composite Beijing 100081 Peoples R China|Beijing Inst Technol State Key Lab Explos Sci & Technol Beijing 100081 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
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关键词
Short carbon fiber-reinforced polymer; composites; Micro compute tomography; Digital volume correlation; In-situ tensile characterization;

机译：短碳纤维增强聚合物;复合材料;微量计算断层扫描;数字体积相关;原位拉伸表征;

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机译：碳纤维增强复合材料的力学性能及损伤机理。张力加载

Morphology characterization and in-situ three-dimensional strain field monitor of short carbon fiber-reinforced polymer composites under tension

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