Construction of a Chrome-free Tanning System Based on Highly-oxidized Starch–Zirconium Complexes

IF 0.6 4区工程技术 Q4 CHEMISTRY, APPLIED

Journal of The American Leather Chemists Association Pub Date : 2022-04-01 DOI:10.34314/jalca.v117i3.4887

Yue Yu, Hui Wang, Ya-nan Wang, Jianfei Zhou, Bi Shi

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引用次数: 2

Abstract

Chrome-free leather manufacture is one of the major focuses of leather industry. In this work, a chrome-free tanning system based on highly-oxidized starch–zirconium complexes (HOS–Zr) was constructed. Particle size and charge properties analyses revealed that the small size (2.5 nm) and the low cationic species content (45.1%) of HOS–Zr at low pH facilitated its uniform penetration in leather at the initial stage of tanning, and the large size (89–169 nm) and the high cationic species content (77.5%) of HOS–Zr after basification contributed to its stable crosslinking between collagen fibers. A 3% HOS–Zr offer (based on the weight of ZrO2) imparted wet white with sufficient tanning effect. The physical properties of HOS–Zr crust leather were remarkably better than those of lactic acid–zirconium crust leather and were comparable to those of chrome crust leather. Wastewater in HOS–Zr tanning system showed a reduction in TOC load by 40.0% and higher biodegradability compared with chrome tanning system. As a result, this work provided a practical and sustainable approach to eliminate chrome in leather manufacture.

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基于高氧化淀粉-锆配合物的无铬鞣体系的构建

无铬皮革制造是皮革工业的主要焦点之一。本文构建了一种基于高氧化淀粉-锆配合物(HOS-Zr)的无铬鞣体系。粒径和电荷特性分析表明，在低pH条件下，HOS-Zr的粒径小(2.5 nm)、阳离子含量低(45.1%)，有利于其在制革初期均匀渗透皮革;碱化后，HOS-Zr的粒径大(89 ~ 169 nm)、阳离子含量高(77.5%)，有利于其在胶原纤维间稳定交联。提供3%的HOS-Zr(基于ZrO2的重量)，获得具有足够鞣制效果的湿白色。HOS-Zr结皮的物理性能明显优于乳酸-锆结皮，与铬结皮的物理性能相当。与铬鞣系统相比，HOS-Zr鞣废水TOC负荷降低了40.0%，可生化性更高。因此，这项工作提供了一种实用和可持续的方法来消除皮革制造中的铬。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of The American Leather Chemists Association 工程技术-材料科学：纺织

CiteScore

1.30

自引率

33.30%

发文量

审稿时长

3 months

期刊介绍： The Journal of the American Leather Chemists Association publishes manuscripts on all aspects of leather science, engineering, technology, and economics, and will consider related subjects that address concerns of the industry. Examples: hide/skin quality or utilization, leather production methods/equipment, tanning materials/leather chemicals, new and improved leathers, collagen studies, leather by-products, impacts of changes in leather products industries, process efficiency, sustainability, regulatory, safety, environmental, tannery waste management and industry economics.