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. 2024 Mar-Apr;176(2):e14279.
doi: 10.1111/ppl.14279.

Extraction and characterization of fiber from the flower stalk of Sansevieria cylindrica

Sivasubramanian Palanisamy  1 Visakh Kunnathuparambil Rajan  2 Ajith Kuriakose Mani  2 Murugesan Palaniappan  3 Carlo Santulli  4 Azeez Alavudeen  5 Nadir Ayrilmis  6
Affiliations

Extraction and characterization of fiber from the flower stalk of Sansevieria cylindrica

Sivasubramanian Palanisamy et al. Physiol Plant. 2024 Mar-Apr.

Abstract

A number of natural fibers are being proposed for use in composite materials, especially those extracted from local plants, especially those able to grow spontaneously as they are cost-efficient and have unexplored potential. Sansevieria cylindrica, within the Asparagaceae (previously Agavacae) family, has recently been considered for application in polymer and rubber matrix composites. However, its characterization and even the sorting out of technical fiber from the stem remains scarce, with little available data, as is often the case when the fabrication of textiles is not involved. In this study, Sansevieria cylindrica fibers were separated down to the dimensions of a filament at an 8-15 micron diameter from the stem of the plant, then characterized physically and chemically, using Fourier transform infrared spectroscopy (FTIR), morphologically by scanning electron microscopy (SEM), as well as their thermal degradation, by thermogravimetric analysis (TGA). Their crystallinity surface roughness was measured by X-ray diffraction (XRD) and atomic force microscopy (AFM), respectively. The results indicate over 70% cellulose fibers content with a very high crystallinity (92%) and small crystallite size (1.45 nm), which suggests a low water absorption, with thermal degradation peaking at 294°C. Despite this, due to the significant porosity of the cellular structure, the density of 1.06 g cm-3 is quite low for a mainly cellulose fiber. Roughness measurements indicate that the porosities and foamy structure result in a highly negative skewness (-3.953), in the presence of deep valleys, which may contribute to an effective relation with a covering resin.

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References

REFERENCES

    1. Abdullah ABM, Abony M, Islam MT, Hasan MS, Oyon MAK, Rahman MB (2020) Extraction and proximate study of Sansevieria trifasciata L. as fibre source for textile and other uses. Journal of the Asiatic Society of Bangladesh, Science 46: 155–162.
    1. Abidi N, Cabrales L, Hequet E (2010) Fourier transform infrared spectroscopic approach to the study of the secondary cell wall development in cotton fiber. Cellulose 17: 309–320.
    1. Adeniyi AG, Adeoye SA, Ighalo JO (2020) Sansevieria trifasciata fibre and composites: a review of recent developments. International Polymer Processing 35: 344–354.
    1. Al‐Waily M, Deli AA, Al‐Mawash AD, Ali ZAAA (2017) Effect of natural sisal fiber reinforcement on the composite plate buckling behavior. International Journal of Mechanical & Mechatronics Engineering 17:
    1. Almeshaal M, Palanisamy S, Murugesan TM, Palaniappan M, Santulli C (2022) Physico‐chemical characterization of Grewia Monticola Sond (GMS) fibers for prospective application in biocomposites. Journal of Natural Fibers 19: 15276–15290.

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