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通过对一种软质沥青进行物理化学和流变学测试,研究老化以及低剂量添加硫酸盐木质素所导致的硬化现象的实验室研究。

Laboratory Study on the Stiffening Phenomena Caused by Aging and by the Addition of Kraft Lignin at Low Dosages Measured by Physico-Chemical and Rheological Tests on a Soft Bitumen.

作者信息

Orozco Gabriel, Lamothe Sébastien, Al-Falahat Wesam, Carret Jean-Claude, Carter Alan

机构信息

Laboratoire sur les Chaussées et Matériaux Bitumineux (LCMB), Département de Génie de la Construction, École de Technologie Supérieure (ÉTS), Montréal, QC H3C 1K3, Canada.

出版信息

Materials (Basel). 2025 May 10;18(10):2209. doi: 10.3390/ma18102209.

DOI:10.3390/ma18102209
PMID:40428945
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12113488/
Abstract

This study investigates the stiffening phenomena caused by aging and low-dosage Kraft lignin addition on a soft bitumen (PG58S-28)- used in cold climate regions. Through a combination of physico-chemical and rheological analyses, including Fourier-transform infrared spectroscopy (FTIR), Brookfield rheometer viscosity (BRV), dynamic shear rheometer (DSR), multiple stress creep recovery (MSCR), bending beam rheometer (BBR), and complex shear modulus (G*) tests, the impacts of lignin modification and thermo-oxidative aging are evaluated. In particular, the anti-aging potential of lignin is scrutinized. The results indicate that while the carbonyl index effectively tracks bitumen aging, the sulphoxide index is less reliable due to high initial S=O bond content in Kraft lignin and greater repeatability variability. Standard rheological tests (BRV, DSR, MSCR, and BBR) show that long-term aging significantly increases bitumen stiffness, while lignin modification leads to a moderate stiffening effect but does not exhibit any noticeable anti-aging properties. The G* analysis confirms that aging strongly influences bitumen rigidity, particularly at low and intermediate equivalent frequencies, while lignin acts similarly to an inert filler, with minimal effects on linear viscoelastic (LVE) behaviour. Overall, the study concludes that the addition of Kraft lignin at low dosage does not alter the fundamental aging mechanisms of bitumen, nor does it provide significant antioxidant benefits. These findings contribute to the ongoing discussion on bio-based bitumen modifiers and their role in sustainable pavement materials.

摘要

本研究调查了老化以及添加低剂量硫酸盐木质素对寒冷气候地区使用的软质沥青(PG58S - 28)所造成的硬化现象。通过物理化学和流变学分析相结合的方法,包括傅里叶变换红外光谱(FTIR)、布鲁克菲尔德流变仪粘度(BRV)、动态剪切流变仪(DSR)、多重应力蠕变恢复(MSCR)、弯曲梁流变仪(BBR)以及复数剪切模量(G*)测试,评估了木质素改性和热氧化老化的影响。特别地,对木质素的抗老化潜力进行了仔细研究。结果表明,虽然羰基指数有效地跟踪了沥青老化,但由于硫酸盐木质素中初始S = O键含量高且重复性变化较大,亚砜指数不太可靠。标准流变测试(BRV、DSR、MSCR和BBR)表明,长期老化显著增加了沥青的刚度,而木质素改性导致了适度的硬化效果,但未表现出任何明显的抗老化性能。G*分析证实,老化强烈影响沥青的刚性,特别是在低和中等等效频率下,而木质素的作用类似于惰性填料,对线性粘弹性(LVE)行为的影响最小。总体而言,该研究得出结论,低剂量添加硫酸盐木质素不会改变沥青的基本老化机制,也不会提供显著的抗氧化益处。这些发现有助于 ongoing discussion on bio-based bitumen modifiers and their role in sustainable pavement materials. (此处英文部分未翻译完整,推测可能是文档录入问题,若按正常翻译,“ongoing discussion”可译为“正在进行的讨论” )关于生物基沥青改性剂及其在可持续路面材料中的作用的持续讨论。

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