Biodegradability of leather: a crucial indicator to evaluate sustainability of leather

Ya-nan Wang, Yuxin Zhang, Zhen Wang
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Abstract

Biodegradability is a crucial indicator to evaluate the sustainability of leather. Herein, a rapid method for biodegradation test in an aqueous medium by measuring biochemical oxygen demand was used to determine the biodegradability of leather from different tanning methods, tanning conditions and process stages. In addition, the difference in biodegradability between leather and leather-like synthetic materials were investigated. Chrome-free tanned leather showed higher degree of biodegradation and faster biodegradation rate than chrome tanned leather. Among them, leathers tanned with biomass-based tanning agents were much easier to biodegrade because the crosslinking network of tanned leather constructed with biomass was more susceptible to microbial attack. The enhancement of tanning effects through changing tanning methods and conditions (such as tanning agent dosage, pH and temperature) resulted in the decline of leather biodegradability. Future development of novel chrome-free tanning technologies should balance between these two aspects. The biodegradability of leather from tanning to post-tanning to finishing showed a stepwise decrease because various chemicals were applied and bound to leather during processing. Even so, finished leather still possessed significantly higher biodegradability compared to leather-like PU and microfiber synthetic materials, demonstrating superior environmental sustainability of natural leather. The results are expected to provide support for the evaluation of the ecological properties of leather and green upgrade of the leather industry.

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皮革的生物降解性:评估皮革可持续性的关键指标
生物降解性是评估皮革可持续性的一个重要指标。本文采用了一种通过测量生化需氧量在水介质中进行生物降解测试的快速方法,以确定不同鞣制方法、鞣制条件和工艺阶段的皮革的生物降解性。此外,还研究了皮革和类皮革合成材料之间生物降解性的差异。与铬鞣革相比,无铬鞣革的生物降解程度更高,生物降解速度更快。其中,用生物质鞣剂鞣制的皮革更容易生物降解,因为用生物质构建的鞣革交联网络更容易受到微生物的侵袭。通过改变鞣制方法和条件(如鞣剂用量、pH 值和温度)来提高鞣制效果会导致皮革的生物降解性下降。未来新型无铬鞣制技术的开发应在这两方面取得平衡。从鞣制到鞣后再到涂饰,皮革的生物降解性呈现出逐步下降的趋势,这是因为在加工过程中各种化学物质被施加并与皮革结合在一起。即便如此,与类皮革聚氨酯和超细纤维合成材料相比,成品皮革的生物降解性仍然明显更高,这表明天然皮革具有更优越的环境可持续性。这些结果有望为皮革生态特性的评估和皮革业的绿色升级提供支持。
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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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