An approach towards identification of leather from leather-like polymeric material using FTIR-ATR technique

Priya Narayanan, Sreeram Kalarical Janardhanan
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Abstract

Leather, a by-product of the meat industry, has unique strength, elasticity, water vapor permeability, resistance to abrasion, durability, and longevity. In the background of ISO 15115:2019, the authenticity of leather has become a subject matter of concern. There is a need to distinguish leather (animal origin) from other leather-like materials derived from fossil fuel (PU, faux leather, etc.) and agro-product-driven vegan materials, which are also sold in the market as leather. For this purpose, this work relies on the signature FTIR bands of collagen (the skin-making protein) as a starting point to distinguish between animal origin and rest. A detailed investigation of all types of materials used in lifestyle products has been carried out to assess the boundary lines of this hypothesis. It is reasonably concluded that the signature Amide I, II, and III bands of collagen occurring at 1600, 1500, and 1200 cm−1 could serve as the first line to distinguish against all materials other than nylon and in the case of nylon, and the Amide A band at 3200 cm−1, forms the basis for differentiation from nylon. In essence, the FTIR spectra can be used as a robust, easy and unambiguous technique to distinguish leather from leather-like materials currently available on the market.

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利用傅立叶变换红外-ATR 技术从类皮革聚合材料中鉴别皮革的方法
皮革是肉类工业的副产品,具有独特的强度、弹性、透水性、耐磨性、耐久性和使用寿命。在 ISO 15115:2019 的背景下,皮革的真实性已成为一个备受关注的问题。有必要将皮革(动物源)与其他从化石燃料中提取的类皮革材料(聚氨酯、人造革等)和农作物驱动的纯素材料区分开来,这些材料也在市场上作为皮革出售。为此,这项研究以胶原蛋白(制革蛋白质)的傅立叶变换红外光谱特征带为起点,区分动物源性材料和其他材料。为了评估这一假设的边界线,我们对生活用品中使用的各类材料进行了详细调查。合理的结论是,出现在 1600、1500 和 1200 cm-1 处的胶原蛋白标志性酰胺 I、II 和 III 带可作为区分尼龙以外所有材料的第一条界线,而尼龙和 3200 cm-1 处的酰胺 A 带则是区分尼龙的基础。从本质上讲,傅立叶变换红外光谱可作为一种可靠、简便和明确的技术,用于区分皮革和目前市场上的类皮革材料。
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来源期刊
Journal of Leather Science and Engineering
Journal of Leather Science and Engineering 工程技术-材料科学:综合
CiteScore
12.80
自引率
0.00%
发文量
29
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