Analyzing the effect of misalignment on single-filament carbon fiber tensile testing via stereoscopic computer vision imaging

Misalignment Paper Post Graphic.png

PUBLICATION

Measurement Science and Technology - 9 Mar 2021
DOI: 10.1088/1361-6501/abeceb

AUTHORS

Cole Alexander Love-Baker, Timothy M Harrell, Kenneth R Brown, Clifton H Bumgardner, Xiaodong Chris Li.

ABSTRACT

An understanding of the constitutive properties of carbon fibers (CF) is critical to the accuracy of high-resolution composite simulations and to the development of CF derived from low-cost alternative precursor materials. Single-fiber tensile testing is a capable tool to measure CF properties and is well suited to research efforts where only a small number of fibers may be available. However, single-fiber tensile tests are challenging to conduct due to the difficulty in handling small diameter fibers (5-15 μm), the brittleness of single fibers, and the required nanoscale/microscale resolution of testing equipment. The accuracy of the measured properties depends on several factors, but a critical factor is fiber misalignment, especially at short gauge lengths. Current standards do not address the effect of tensile specimen misalignment on measured properties. This work presents a robust method of fiber alignment using stereoscopic computer vision that enables users to align fibers vertically for tensile testing to improve the accuracy of resulting mechanical properties. Additionally, an analytical relationship between fiber misalignment angle and measured properties is developed and validated against the experimental results. As a result, new best practices for single-fiber tensile testing of CF are recommended.

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