Abstract
Abstract To explore the impact of high-intensity ultraviolet light on the structure and mechanical properties of sisal fibers, the article uses chemical methods in the sisal fiber surface silver-plated, untreated, and alkali-treated sisal fibers as a comparison, with the help of scanning electron microscopy, infrared spectroscopy on the fiber surface topography, the molecular structure of the research, determination of high-intensity ultraviolet irradiation under the mechanical tensile properties of the fiber. Exposure to high-intensity ultraviolet radiation for a brief period results in a reduction in the tensile strength, fracture elongation, and elastic modulus of untreated, alkali-treated, and chemically silver-plated sisal fibers by 95.2%, 77.7%, 55.9%, 92.8%, 76.9%, 42.1%, and 89.4%, 70.2%, 34.2%, respectively.
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