It is demonstrated that Raman spectroscopy can be used to study the molecular deformation of TENCELR fibers. It is shown that the peak positions of the 895 cm−1 and 1095 cm−1 Raman bands shift to lower frequency upon the application of tensile stress or strain owing to the macroscopic deformation leading to direct stretching of the cellulose chains. Significant frequency shifts of 1.98 cm−1 and 3.26 cm−1 are obtained for the two Raman-sensitive peak positions, respectively, using the 632.8 nm laser radiation. It is found that the change in position of the Raman band is more closely related to molecular stress than strain, and that the molecular deformation processes for tencel resemble those for other conventional polymers (PET fibers) and high-performance fibers such as aromatic polyamides (aramids).

Issue Section:
Technical Papers
Topics:
Cellulosic fibers, Deformation, Micromechanics (Engineering), Raman spectroscopy, Fibers, Chain, Laser beams, Polymers, Stress, Tension
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