Abstract
The prophet Muhammad S.A.W. has made silk unlawful for the Muslim males. The development of silk industry around the globe had made abundant the availability of textile merchandise of silk origins. Advancement of technology created textile materials of surface properties, texture and ‘feel’ which mimicked pure silks. As such, consumers and contemporary Muslims could no longer differentiate between pure silk and synthetic silk-like fabrics and are forced to face the issues of halal textiles/fabrics for wear and clothing. This paper gives an insight and review of the characteristics and properties of silk and silk-based textiles in the scientist’s viewpoint. Ways and techniques to produce synthetic and composite fabrics which resembled pure silk as reported in the literatures are revealed and discussed to identify possibilities of segregating between pure and synthetic silk-like fibres. In conclusion, it is the purpose of this paper to expose scientific background and knowledge on silk and silk-like textiles to the community so as to gain a better understanding and perspective on the issues of halal textiles.
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References
Ando, S., Uraya, T., & Nagata, K. (1970). Synthetic fiber having silk-like surface luster and light transparency (US Patent 3,551,279).
Asakura, T., Kuzuhara, A., Tabeta, R., & Saito, H. (1985). Conformational characterization of Bombyx mori silk fibroin in the solid state by high-frequency carbon-13 cross polarization-magic angle spinning NMR. X-ray diffraction, and infrared spectroscopy, Macromolecules, 18(10), 1841–1845.
Babu, K. M. (2013). Silk: processing properties and applications (pp. 40–41). Philadelphia: Woodhead Publishing Limited.
Bajaj, P. (2001). Finishing of textile materials. Journal of Applied Polymer Science 83(318), 631–659.
Cai, Z., Jiang, G., & Yang, S. (2001). Chemical finishing of silk fabric. Coloration Technology, 117, 161–165.
Dobb, M. G., Fraser, R. D. B., & Macrae, T. P. (1967). The fine structure of silk fibroin. The Journal of Cell Biology., 32, 289–295.
Hipparagi, S. A., Srinivasa, T., Das, B., Naik, S. V., & Purushotham, S. P. (2016). Studies on Application of Aroma Finish on Silk Fabric. Journal of the Institution of Engineers (India): Series E, 1–7.
Holland, C., Terry, A. E., Porter, D., & Vollrath, F. (2007). Natural and unnatural silks. Polymer, 48, 3388–3392.
Horrocks, A. R., & Anand, S. C. (2000). Handbook of technical textiles (61–62, 70–71) Cambridge: Woodhead Publishing Limited.
Inoue, S., Tanaka, K., Arisaka, F., Kimura, S., Ohtomo, K., & Mizuno, S. (2000). Silk fibroin of Bombyx mori is secreted, assembling a high molecular mass elementary unit consisting of H-chain, L-chain, and P25, with a 6:6:1 molar ratio. Journal of Biological Chemistry, 275(51), 40517–40528.
Kalantzi, S., Mamma, D., & Kekos, D. (2013). Physichochemical and low stress mechanical properties of silk fabrics degummed by enzymes (234–260). Intech Publisher.
Kaldolph, S. J., & Langford, A. L. (2002). Textiles (9th ed., pp. 61–62). London: Prentice Hall International.
Kamarun, D., Omar, K., & Yusof, F. Z. (2015). Chemical and thermal analysis of silk and silk-like fibers. Advanced Materials Research, 1134, 123–126.
Kawahara, Y., Shioya, M., & Takaku, A. (1995). Physical properties of silk fabrics treated with glyoxal and urethane compounds. American Dyestuff Rep, 84(8), 36–39.
Marsano, E., Canetti, M., Conio, G., Corsini, P., & Freddi, G. (2007). Fibers based on cellulose-silk fibroin blend. Journal of Applied Polymer Science, 104, 2187–2196.
Mercer, E. H. (1951). Formation of silk fibre by the silkworm. Nature, 168, 792–793.
Mohsin, M., Ramzan, N., Ahmad, S. W., Afzal, A., Qutab, H. G., & Mehmood, A. (2015). Development of environment friendly bio cross-linker finishing of silk fabric. Journal of Natural Fibers, 12(3), 276–282.
Mondal, M., Trivedy, K., & Kumar, S. N. (2007). The silk proteins, sericin and fibroin in silkworm, Bombyx mori Linn.—a review. Caspian J. Env. Sci. 5(2), 63–76.
Omenetto, F. G., & Kaplan, D. L. (2010). New opportunities for an ancient material. Science, 329(5991), 528–531.
Onder, E., & Sarier, N. (2015). Thermal regulation finishes for textiles functional finishes for textiles improving comfort performance and protection (pp. 17–98). Philadelphia: Woodhead Publishing Series.
Poole, A., Church, J. S., & Huson, M. G. (2009). Environmentally sustainable fibers from regenerated protein. Biomacromolecules, 10, 1–10.
Rangi, A., & Jajpura, L. (2015). The biopolymer sericin: extraction and applications. Journal Textile Science Engineering, 5(188), 1–5.
Raslan, W. M., & Bendak, A. (2005). Changes induced in silk-like polyester properties by alkoxides treatment. Journal of Applied Polymer Science, 98, 1829–1837.
Rheinberg, L. (1991). The romance of silk: a review of sericulture and the silk industry. Textile Progress, 21(4), 1–43.
Sun, Y. Y., Shao, Z. Z., Ma, M. H., Hu, P., Liu, Y. S., & Yu, T. Y. (1997). Acrylic polymer silk fibroin blend fibers. Journal of Applied Polymer Science, 65, 959–966.
Taylor, R.E. (1972). Process for preparing silk-like polyester yarn. (US Patent 3,705,225).
Valluzzi, R., Winkler, S., Wilson, D., & Kaplan, D. L. (2002). Silk: molecular organization and control of assembly. Phil. Trans. R. Soc. Lond. B, 357, 165–167.
Vollrath, F., & Porter, D. (2009). Silks as ancient models for modern polymers. Polymer, 5623–5632.
Yamada, H., Nakao, H., Takasu, Y., & Tsubouchi, K. (2001). Preparation of undegraded native molecular fibroin solution from silkworm cocoons. Materials Science and Engineering C, 14, 41–46.
Acknowledgements
This study was supported by research grant from JAKIM granted to Universiti Teknologi MARA (UiTM) 100-RMI 37/7/20150212002. The authors would also like to thank all batik producers for their continuous support and those who have helped in this research.
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Kamarun, D. et al. (2018). Silk and Silk-like Fibres: Halal Attributes from a Scientific Viewpoint. In: Muhammad Hashim, N., Md Shariff, N., Mahamood, S., Fathullah Harun, H., Shahruddin, M., Bhari, A. (eds) Proceedings of the 3rd International Halal Conference (INHAC 2016) . Springer, Singapore. https://doi.org/10.1007/978-981-10-7257-4_4
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