ABSTRAK

Permintaan kulit yang bermutu semakin meningkat  tetapi ketersediaannya semakin menurun. Teknologi pasca penyamakan (finishing) merupakan hal yang dapat dilakukan untuk menutupi kerusakan kulit. Salah satu bahan finishing kulit yang dapat digunakan untuk menutupi cacat kulit adalah pigmen. Penelitian ini bertujuan untuk mengetahui pengaruh penambahan jumlah pigmen pada lapisan dasar terhadap sifat fisik kulit tersamak. Kulit sapi yang sudah disamak ulang diberi perlakuan finishing dengan variasi pigmen 7,5; 10; 12,5; 15; dan 17,5% pada lapisan dasar. Hasil penelitian menunjukkan bahwa pigmen berpengaruh pada penyerapan air selama dua jam dan ketebalan lapisan finishing. Formulasi dengan berbagai variasi pigmen dalam penelitian ini memenuhi standard SNI 0234: 2009 Kulit Bagian Atas Alas Kaki-Kulit Boks dan ISO 20879: 2007 Footwear performance requirements for footwear-upper dari segi ketahanan gosok cat (kering dan basah), penyerapan air (2 dan 24 jam), dan permeabilitas uap air.

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(Kata kunci: “finishing, kulit sapi, pigmen, permeabilitas uap air”)

ABSTRACT

The demand of high quality leather was increasing, but it’s availability was decrease. Finishing was technology to upgrade the quality of leather. Pigment  was one of the materials for finishing leather that can correcting grain. The aim of this research was to determine the best variation in addition of pigment as base coat on leather physical properties. Retanned cow leather was finished with 7,5; 10; 12,5; 15; and 17,5% of pigment as base coat. This study revealed pigment, as one of basecoat material, affected not only water absorption for two hous but also leather coating thickness. Finishing formulation used to finish leather, with pigment included, was met the requirements of  SNI 0234: 2009 Kulit Bagian Atas Alas Kaki-Kulit Boks dan ISO 20879: 2007 Footwear performance requirements for footwear-upper for rub fastness (wet and dry), water absorption (2 and 24 hours), and water vapour permeability.

(Keywords: “finishing, cow leather, pigment, water vapour permeability”)

Aravindhan, R., Madhan, B., Thanikaivelan, P., Kanth, S. V., Rao, J. R., Gnanasekaran, C. S., and Nair, B. U. 2008. Upgradation of leathers: Masking defects using pigments in pre-finishing processes. Journal of Scientific and Industrial Research. 67(3): 233–238.

BSN (Badan Standardisasi Nasional). 2009. Standard Nasional Indonesia SNI 0234: 2009 Kulit bagian atas alas kaki - Kulit Boks. BSN, Jakarta.

Covington, A. D. (2009). Tanning Chemistry: The Science of Leather. Royal Society of Chemistry, Cambridge.

Jankauskaite, V. Gulbiniene, A., and Mickus, K. V. 2004. Effect of Leather Finishing Technology on Water Vapour Transmission. Part II. Water Vapour Transfer through Microporous Film Laminated Leather, 10(3): 249-254.

Fantová, M., Nohejlová, L., and Stádník, L. 2015. Mechanical quality of leather in Texel lambs and their crossbreds. Journal of Central European Agriculture. 16(2): 54-61. http://doi.org/10.5513/JCEA01/16.2.1588

Hoefler, J., Hageman, B., Chung, C. J. and Smith, R. 2013. High performance acrylic polymer technology for use in the leather finishing process. Journal of American Leather Chemists Association, 108(8): 311–317.

ISO (International Organization for Standardization). 2012a. ISO 14268: 2012: Leather – Physical and mechanical tests – Determination of water vapour permeability. ISO: Jenewa.

ISO (International Organization for Standardization). 2012b. ISO 20433: 2012 (en): Leather – Tests for colour fastness – Colour fastness to crocking. ISO: Jenewa.

ISO (International Organization for Standardization). 2016. ISO 17229: 2016: Leather – Physical and mechanical test – Determination of water vapour absorption. ISO: Jenewa.

ISO (International Organization for Standardizaton). 2011. ISO 20344:2011: Specifies methods for testing footwear designed as personal protective equipment. ISO: Jenewa.

ISO (International Standard Organization). 2007. ISO 20879:2007 Footwear performance requirements for footwear-upper. ISO: Jenewa.

Kahsay, T., Negash, G., Hagos, Y., Hadush, B. 2015. Pre-slaughter, slaughter and post-slaughter defects of skins and hides at the Sheba Tannery and Leather Industry, Tigray region, northern Ethiopia. Onderstepoort Veterinary Institute Onderstepoort South Africa, 82(1): 1–7. http://dx.doi.org/10.4102/OVJR.V82I1.931.

Kasmudjiastuti, E., Pidhatika, B., dan Griyanitasari, G. 2016. Pengaruh perbedaan jumlah penambahan binder uretan dan berbagai motif embossing terhadap kualitas kulit reject. Majalah Kulit, Karet, dan Plastik. 32(1): 39–50.

Bekele, M. 2014. Approach towards high performance water vapour permeability upper leather from goat skin. Addis Ababa Institute of Technology: Addis Ababa.

Olle, L., Bou, J., Shendrik, A., and Bacardit, A. 2014. Sustainable solvent-free finishing of patent leather using carbonyl-functional resins. Journal of Cleaner Production, 65: 590–594. http://doi.org/10.1016/j.jclepro.2013.07.058

Smiechowski, K., Zarlok, J., and Kowalska, M. 2014. The relationship between water vapour permeability and softness for leathers produced in poland. Journal of the Society of Leather Technologist & Chemist, 98(6): 259–263.

Sumarni, S. dan Triatmojo, S., 2013. Pengaruh Penggunaan Binder Alami pada Proses Finishing Kulit Cakar Ayam Tersamak terhadap Kekuatan Sobek dan Ketahanan Gosok Cat. Buletin Peternakan, 37(1): 41–48.

Sundar, S., Vijayalakshmi, N., Gupta, S., Rajaram, R., & Radhakrishnan, G. 2006. Aqueous dispersions of polyurethane-polyvinyl pyridine cationomers and their application as binder in base coat for leather finishing. Progress in Organic Coatings, 56(2–3): 178–184. http://doi.org/10.1016/j.porgcoat.2006.04.001

Wakaso, M. 2014. Studies on Effect of Different Pigment and Binder Combinations on Surface Property of Finished Leather. PhD Proposal. Addis Ababa Institute of Technology: Addis Ababa.

Wu, Y., Wang, A. H., Zheng, R. R., Tang, H. Q., Qi, X. Y., and Ye, B. 2014. Laser-drilled micro-hole arrays on polyurethane synthetic leather for improvement of water vapor permeability. Applied Surface Science, 305: 1–8.

Xu, H., Ning, H., Chen, Y., Fan, H., & Shi, B. 2013. Sulfanilamide-conjugated polyurethane coating with enzymatically-switchable antimicrobial capability for leather finishing. Progress in Organic Coatings. 76(5): 924–934. http://doi.org/10.1016/j.porgcoat.2013.02.013

Yilmaz, O., Cheaburu, C. N., Gülümser, G., & Vasile, C. 2011. Rheological behaviour of acrylate/montmorillonite nanocomposite latexes and their application in leather finishing as binders. Progress in Organic Coatings, 70(1): 52–58. http://doi.org/10.1016/j.porgcoat.2010.10.001