The Use of Glutaraldehyde Tanning Materials for Goat Skin Tanning

https://doi.org/10.21059/buletinpeternak.v42i2.27721

Laili Rachmawati(1*), Emiliana Anggriyani(2)

(1) Politeknik ATK Yogyakarta
(2) Politeknik ATK Yogyakarta
(*) Corresponding Author

Abstract


Tanning process using free chromed material is needed to reduce toxic content in leather. The aims of this study is to increase byproducts of livestock by goat skin tanning with free chrome tanning materials. This study used glutaraldehyde as tanning materials. Goat skins were tanned become upholstery leather, and then physical quality was determined. The materials of this study were pickle goat skin. Physical testing conducted in Balai Besar Kulit, Karet dan Plastik (BBKKP) Yogyakarta. The results were analyzed descriptively using SPSS version 17.0 for Windows. Statistical analysis showed that the value of tensile strength, elongation, tear strength, sewing strength, scrub resistance of paint to dry and wet were 166.025 ± 72.315 kg/cm²; 69.910 ± 9.107%; 26.785 ± 6.031 N/cm; 115.120 ± 18.681 kg/cm; 0.775 ± 0.353; 0.775 ± 0.353 respectively. This study showed that the physical quality of upholstery leather which tanned using free chrome tanning materials have the physical qualities that met with SNI standard for leather upholstery.

Keywords


Glutaraldehyde; Goat skin; Tanning materials

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References

Anggriyani, E. and R. Laili. 2017. Physical Quality of Golf Glove Leather with Tanning Process By Reduced Chrome. World Association for Scientific Research and Technical Innovation. Bali.

Anonymous. 2009. Test method requirement car seat. http://www.stc-group.org/. Accessed 28 September 2016.

Bossche, V. V. D., G. Gavend, and M. J. Brun. 2007. Chromium tanned leather and its environmental impact. J. Soc. Leather Techol. Chem. 82: 64-71.

Chakraborty, D., A. H. Quadery, and M. A. K. Azad. 2008. Studies on the tanning with glutaraldehyde as an alternative to traditional chrome tanning system for the production of chrome free leather. Bangladesh J. Sci. Ind. Res. 43: 553-558.

Covington, A. D. 2009. Tanning Chemistry. The University of Northampton, United Kingdom.
Darmawati, E., U. Santoso, and Sudarmaji. 2017. Brazilin extraction from secang wood by maceration methods and application for leather dyeing. Int. J. Sci. Tech. 5: 61-65.

Dettmer, A., M. A. Z. Ayub, and M. Gutterres. 2011. Hide unhairing and characterization of commercial enzymes used in leather manufacture. Bazilian J. Chem. Eng. 28: 373-380.
Erdem, M. 2006. Chromium recovery from chrome shaving generated in tanning process. J. Hazardous Mat. 129: 143-146.

IBM® USA. 2009. SPSS Statistics Editions. IBM Corporation Software Group, United States of America.

Kasmudjiastuti, E., B. Pidhatika, I. F. Pahlawan, and G. Griyanitasari. 2016. Tannery sustainable development (non chrome) with vegetable tanning materials for leather upper shoes. Balai Besar Kulit, Karet dan Plastik, Yogyakarta.

Palop, R. 2000. Wet white pre-tannage: An alternative for chrome free leather manufacture. AQEIC Bol. Tech. 3: 124-131.

Purnomo, E. 2008. Pasca Tanning. Akademi Teknologi Kulit Yogyakarta, Yogyakarta.
Purnomo, E. 2015. Teknik Penyamakan Aldehida dan Sintetis. Jurusan Teknologi Pengolahan Kulit, Politeknik ATK Yogyakarta, Yogyakarta.

Purnomo, E. 2016. Teknik Penyamakan Aldehida dan Sintetis untuk Pembuatan Kulit Jok. Jurusan Teknologi Pengolahan Kulit, Politeknik ATK Yogyakarta, Yogyakarta.

Purnomo, E. 2017. Teknik Pasca-Tanning Kulit Besar (Hide). Jurusan Teknologi Pengolahan Kulit, Politeknik ATK Yogyakarta, Yogyakarta.

Rachmawati, L. and M. Udkhiyati. 2017. Toxicity test of chrome and glutaraldehyde to determine greener chemical in tannery industry. J. Mat. Sci. Forum. 901: 160-165.

Samiadi and Bulkaini. 2005. Penggunaan ekstrak pankreas sapi, bromelin, papain pada suhu dan pH optimum sebagai agensia bating dalam proses penyamakan kulit. Buletin Peternakan 29: 44-52.

Simons, C., Walsh, and J. Y. Mailar. 2000. A note: orthophthaldehyde: proposed mechanism of action of a new antimicrobial agent. Lett. Appl. Microbiol. 31: 299-302.

Suparno, O., A. D. Covington, and C. S. Evans. 2002. Tanning combination of using tanning vegetable, naphthol and oxazolidine. J. Agr. Industrial Tech. 18: 79-84.

Takigawa, T. and E. Yoko. 2006. Effects of glutaraldehyde exposure on human health. J. Occup Health. 48: 75-87.

Tariq, S. R., M. H. Shah, and N. Shaheen. 2009. Comparative statistical analysis of chrome and vegetable tanning effluents and their effects on related soil. J. Hazardous Mat. 169: 285-290.

Thanikaivelan, P., J. R. Rao, B. U. Nair, and T. Ramasami. 2005. Recent trends in leather making: Processes, problems and pathways. Crit. Rev. Environ. Sci. Technol. 35: 37-79.

Vitolo, S., M. Seggiani, and A. Diaquino. 2003. Tara-allumunium tanning as an alternative to traditional chrome tanning. J. Leather. Tech. 98: 123-134.

Yasmeen, G. A. R. 2016. Magnetic chitosan modified with cysteine-glutaraldehyde as adsorbent for removal of heavy metals from water. J. Environ. Chem. Engineering 4: 3835-3847. https://doi.org/10. 1016/j.jece.2016.08.014.



DOI: https://doi.org/10.21059/buletinpeternak.v42i2.27721

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