Time dependence of mesoscopic strain distribution for triaxial woven carbon-fiber-reinforced polymer under creep loading measured by digital image correlation |
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| Authors: | Jun Koyanagi Hideo Nagayama Satoru Yoneyama Takahira Aoki |
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| Affiliation: | 1.Department of Materials Science and Technology,Tokyo University of Science,Tokyo,Japan;2.Graduate School,Tokyo University of Science,Tokyo,Japan;3.Department of Mechanical Engineering,Aoyama Gakuin University,Tokyo,Japan;4.Department of Aeronautics and Astronautics,The University of Tokyo,Tokyo,Japan |
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| Abstract: | This paper presents the time dependence of the mesoscopic strain of a triaxial woven carbon-fiber-reinforced polymer under creep loading measured using digital image correlation (DIC). Two types of DIC techniques were employed for the measurement: conventional subset DIC and mesh DIC. Static tensile and creep tests were carried out, and the time dependence of the mesoscopic strain distribution was investigated by applying these techniques. The ultimate failure of this material is dominated by inter-bundle decohesion caused by relative rigid rotation and relating shear stress. Therefore, these were focused on in the present study. During the creep tests, the fiber directional strain, shear strain, and rotation were monitored using the DIC, and the mechanism for the increase in the specimen’s macro-strain over time was investigated based on the results obtained by the DIC measurement. |
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