Effect of wet processing dynamics of okra fiber: Properties and processing strategies

Minakshi Hazarika; Binita Baishya Kalita

doi:10.58993/ijh/2025.82.4.14

Authors

Minakshi Hazarika Department of Textiles and Apparel Designing, Assam Agricultural University, Assam 785013, India
Binita Baishya Kalita Department of Textiles and Apparel Designing, Assam Agricultural University, Assam 785013, India

Abstract

The earth is rich in fibrous material to cater to the needs of humans. Despite technological advancements,
every source of fibre has not been fully tapped. In this regard, a study on okra fibres has been conducted. The
objective is to overcome the shortage of natural fibres and utilize underutilized fibres on earth. The extraction
and analysis of fibres from okra plant was carried out. The world is focusing on renewable and sustainable
resources. The fibres were extracted from the stalk of the plant and subjected to extraction and evaluation of
their properties such as chemical constituents, length, wall thickness, diameter, strength, and moisture content.
The Scanning Electron Microscopy (SEM) study was also carried out to assess the morphological changes in
the fibres on processing. Fourier transform infrared spectroscopy (FTIR) and X-Ray Diffraction test was also
carried out to detect the presence of chemical groups in the fibres. The XRD spectrum of the raw, degummed,
and bleached okra fibers indicated the presence of cellulose, as reflected by the sharp peak that represents the
increasing portion of the crystalline structure of cellulose. The results suggest that okra fiber has the potential
to be a substitute for conventional fibers in various industries such as home furnishings, automotive, civil
engineering, geo-textiles, industrial filters, and medical and sanitary materials

How to Cite

Hazarika, M., & Kalita, B. B. (2026). Effect of wet processing dynamics of okra fiber: Properties and processing strategies. Indian Journal of Horticulture, 82(04), 471–476. https://doi.org/10.58993/ijh/2025.82.4.14

Download Citation

Downloads

Download data is not yet available.

References

1. Duque-Acevedo, M., Belmonte-Ureña, L. J.,

Cortés-García, F. J. and Camacho-Ferre, F.

2020. Agricultural waste: Review of the evolution,

approaches and perspectives on alternative

uses, Glob. Ecol. Conserv; 22: 1-23

2. Dayan, A. R., Habib, M., Kaysar, M. A., and

Uddin, M. 2020. Study on the physico-mechanical

properties of okra fibre at different harvesting

time. Saudi J Eng and Technol. 5: 304-309.

3. De Rosa, I. M., Kenny, J.M., Maniruzzaman, M.,

Moniruzzaman, M., Monti, M., Puglia, D. and

Sarasini, F. 2011. Effect of chemical treatments

on the mechanical and thermal behavior of okra

(Abelmoschus esculentus) fibers. Compos. Sci.

Technol. 71: 246–254.

4. Gogoi, N., Gogoi, M. and Choudhury, S. 2017.

Utilization of agro waste-okra and its potentiality.

Asian J. Home Sci. 12: 250-256.

5. Gupta, P., Maiti, S., Das, R., Patra, S., Adivarekar,

R.V. and Basu, G. 2022. Okra, A new technical

bast fiber: Its comparison with jute fibers. J. Nat.

Fibers. 19(16): 13511-13523.

6. Hossen, T., Islam, T., Islam, E.M., Reza,

Z.T., Rahman, M. and Mahmud, S. 2021. A

comprehensive study on physic-mechanical

characteristics of okra fibre (Abelmoschus

esculentus) for textile applications. Ind. J. Sci and

Technol. 14(9): 765-775.

7. Islam, M.R., Mia, R. and Uddin, A.J. 2022.

Investigation of the performance of okra fiber in

woven fabric. Heliyon. 8(4): 1-9

8. Kalita, B., Jose, S., Baruah, S., Kalita, S. and

Saikia, S. 2017. Hibiscus sabdariffa (Roselle):

A potential source of bast fiber. J. Nat. Fibers.

16(1): 1-9.

9. Upadhyaya, K. and Kumar. H. 2012. Effective

utilization of agricultural waste-review paper; Int.

J. Eng. Res. Technol. 6(9): 52-59.

10. Karimah A, Ridho M R, Munawar S.S, Fudholi

A, Adi D.S, Ratih I., Damyanti D.S and

Fatriasari W. 2021. A review on natural fibers

for development of eco-friendly bio-composite:

characteristics and utilizations. J. Mater. Res.

Technol. 13: 2442-2458.

11. Kolte, P.P. and Shivankar, V.S. 2023.

Characteristics of Abelmoschus esculentus

(Indian okra) fiber varieties. Emerg. Mater. Res.

12: 204-211.

12. Koul, B., Yakoob, M. and Shah, M. P. 2022.

Agricultural waste management strategies for

environmental sustainability. Environmental

Research. 206; 112285.

13. Rahman, A. M., Ahmed, F., Alimuzzaman,

S. and Khan, R. A. 2021. Enhancement of

thermo-mechanical properties of okra fiber by

photografting technique. J. Inst. Eng. India Ser.

E. 102: 45–59.

14. Stawski, D., Çalişkan, E., Yilmaz, N. D. and

Krucińska, I. 2020. Thermal and mechanical

characteristics of okra (Abelmoschus esculentus)

fibers obtained via water- and dew-retting. Appl.

Sci. 10: 5113.

15. Ullah, A. A., Foisal, A. and Nazmun, N. 2016.

Study on the characteristics of jute-cotton

blended fabrics. SEU J.Sci.Eng. 10(2): 12-16.

16. Vasugi, N., Amsamani, S. and Sunitha, R. 2019.

Extraction and evaluation of okra fibers. SSRG

Int. J. of Polym.Text.Eng. 6(1): 24-30.

17. Zhao, L. S., Zhou, W. H., Su, L. J., Garg, A.

and Yuen, K. V. 2019. Selection of physical and

chemical properties of natural fibers for predicting

soil reinforcement. J. Mater. Civ. Eng., 31(10),

04019212.

Effect of wet processing dynamics of okra fiber: Properties and processing strategies

Downloads

Published

DOI:

Keywords:

Issue

Section

License

Authors

Abstract

How to Cite

Downloads

References

Similar Articles

Make a Submission

Cover

sjr 2021

NAAS Rating

Membership/Subscription

Journal Menu

Editorial Board

Counter