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however, may have an impact on its dryness under pressure. With a leak factor of 0.65, it was evident that liquid leakage was effectively prevented. Goat blood was widely dispersed, and the strike-through rate was 8.78 seconds. The study's conclusions imply that sanitary napkins' performance can be greatly impacted by the type of natural fibers used in their development. The bamboo-flax-hemp core of Sample S3 showed excellent absorbency and retention, but it also had a minor rewet resistance issue. Sample S2, which combined hemp and bamboo, showed balanced performance traits. With a bamboo-flax core, Sample S1 was the most absorbent and driest, but its ability to prevent leaks could be strengthened. Because of these differences in performance, these sanitary napkins can be used for a variety of purposes. Women can select products that meet their unique needs, whether they are for absorbency, dryness, or leak prevention, and they are also biodegradable and environmentally friendly. This research opens the door for environmentally friendly sanitary napkin alternatives that put performance and sustainability. References: J. Saranya, C. Prakash, and S. Kubera Sampath Kumar, “Menstrual Hygiene Practices among Adolescent Girls”, International Journal of Innovative Technology and Exploring Engineering, vol. 8, no. 12, pp. 364-366, 2019. M.P. Sathianarayanan, N.V. Bhat, S.S. Kokate, and V.E. Walunj, “Antibacterial finish for cotton fabric from herbal products”, Indian Journal of Fibre and Textile Research, vol. 35, no. 1, pp. 50- 58, 2010. T.M. Choi, and T.E. Cheng, “Sustainable Fashion Supply Chain Management”, New York; Springer: 2015, pp. 15-25. Y. Song, Q. Zheng, and C. Liu, “Green biocomposites from wheat gluten and hydroxyethyl cellulose: processing and properties”, Industrial Crops and Products, vol. 28, no. 1, pp. 56-62, 2008. H.D. Rozman, K.R. Ahmadhilmi, and A. Abubakar, “Polyurethane (PU)-oil palm empty fruit bunch (EFB) composites: the effect of EFBG reinforcement in mat form and isocyanate treatment on the mechanical properties”, Polymer Testing, vol. 23, no. 5, pp. 559-565, 2004. Y. Habibi, W.K. El-Zawawy, M.M. Ibrahim, and A. Dufresne, “Processing and characterization of reinforced polyethylene composites made with lignocellulosic fibres from Egyptian agro- industrial residues”, Composites Science and Technology, vol. 68, no. 7, pp. 1877-1885, 2008. A.M.Z. Jukic, C.R. Weinberg, D.D. Baird, P.P. Hornsby, and A.J. Wilcox, “Measuring menstrual discomfort: a comparison of interview and diary data”, Epidemiology, vol. 19, no. 6, pp. 846- 850, 2008. W. Audra, and A. Frank, “Comfort Perception of Breathable and Nonbreathable Diapers”, International Nonwovens Journal, vol. 14, no. 3, pp. 19-22, 2005. I. Parkova, & A. Vilumsone, “Microclimate of Smart Garment”, Material Science, vol. 6, pp. 99- 103, 2011. G.B. Marcela, G.G. Paulo, and L.B.P. Cristina, “Association of sanitary pads and clothing with Vulvo vaginitis”, Jornal Brasileiro De Doenças Sexualmente Transmissiveis, vol. 25, no. 3, pp. 123-127, 2013. H.S. Mohapatra, A. Chatterjee, and P. Kumar, “New Generation Application of Polypropylene”, International Journal of Advanced Engineering and Nano Technology, vol. 1, no. 1, pp. 1-9, 2013. G.M. Ingo, and S. Scarlet. 1987. Copper-Modified Carboxyalkyl-cellulose Fiber. US Patent US4637820A, filed March 4, 1987, and issued March 4, 2005.

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