Sustainable metal-free leather manufacture via synergistic effects of triazine derivative and vegetable tannins

Yuanhang Xiao, Jiajing Zhou, Chunhua Wang, Jinwei Zhang, Vera D. Radnaeva, Wei Lin
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引用次数: 4

Abstract

Restrictions on heavy metals, especially chromium, have encouraged alternative tanning systems that can reduce environmental and human health risks from conventional chrome-based tanning. In this work, metal-free combination tanning was developed by using vegetable tannins and a triazine-based syntan containing active chlorine groups (SACC). Specifically, the relationship between leather performance (e.g., hydrothermal stability and organoleptic properties) and technical protocols (e.g., types and dose of tannins) was systematically established. The optimized protocol involving a unique procedure (i.e., 10% SACC pre-tanning, shaving, and 25% wattle tanning) endowed the leather with high shrinkage temperature (~ 92 °C) and met the Chinese standards for shoe upper leather (QB/T 1873-2010). Our method not only produces zero chrome-containing solid wastes, but also uses ~ 75% less tannin for leather manufacture. The excellent leather performance was ascribed to the synergistic effects, where SACC and wattle diffused into collagen fibrils and may bind to collagen via covalent, hydrogen and ionic bonding, locking the hierarchical structure of collagen from microfibrils to fiber bundles. Moreover, we summarized these findings and proposed a diffusion-binding-locking mechanism, providing new insights for current tanning theory. Together with the biodegradable spent tanning liquor, this approach will underpin the development of sustainable leather manufacture.

Graphical Abstract

通过三嗪衍生物和植物单宁的协同作用,可持续地制造无金属皮革
对重金属,特别是铬的限制鼓励了可替代的鞣制系统,这些系统可以减少传统铬基鞣制对环境和人类健康的风险。本研究利用植物单宁和含活性氯基团(SACC)的三嗪基合成鞣剂,开发了无金属复合鞣剂。具体而言,系统地建立了皮革性能(例如,水热稳定性和感官性能)与技术方案(例如,单宁的类型和剂量)之间的关系。优化后的方案采用了独特的工艺流程(即10% SACC预鞣、剃须和25%金条鞣制),使皮革具有高收缩温度(~ 92°C),符合中国鞋面革标准(QB/T 1873-2010)。该方法不仅不产生含铬固体废物,而且在制革过程中单宁用量减少75%。优异的皮革性能归因于协同作用,SACC和金合穗扩散到胶原原纤维中,并通过共价键、氢键和离子键与胶原结合,将胶原的层次结构从微原纤维锁定到纤维束。此外,我们总结了这些发现,并提出了一种扩散结合-锁定机制,为目前的鞣制理论提供了新的见解。与可生物降解的废制革液一起,这种方法将巩固可持续皮革制造的发展。图形抽象
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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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