Yingxin Wang, Xiangling Bai, Hao Li, Jiashuai Zuo, Dianzhi Li, Pengju Han, Bin He
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Using Image-Pro Plus (IPP) 6.0 image analysis software, the study obtained the change curve of two-dimensional porosity by adjusting various thresholds. Based on principles of calculus, a three-dimensional porosity calculation method was employed to establish the change curve of three-dimensional porosity relative to the threshold value. Finally, the study performed a comparative analysis of the porosity of the rammed soils modified with the two lime-based materials, integrating X-ray diffraction (XRD) and energy dispersive spectroscopy (EDS) patterns. The modification mechanisms of the lime-based materials were analyzed. The results indicate that the three-dimensional porosity calculation formula applied in this study is applicable for the porosity calculation of rammed soils modified with lime-based materials. The calculation error of the three-dimensional porosity of rammed soils modified with lime is greater than that of rammed soils modified with hydraulic lime. 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引用次数: 0
摘要
石灰类修正材料通常包括石灰和水力石灰,常用于夯土遗址的修复。为了比较这两种石灰基材料的改性特征,并进一步阐明水力石灰改性材料的修复机制,本研究利用了平遥古城和世界文化遗产的夯土城墙。对石灰和水力石灰处理过的夯土进行了微观结构扫描。研究比较分析了使用这两种石灰基材料处理后土壤孔隙结构的变化。研究使用 Image-Pro Plus (IPP) 6.0 图像分析软件,通过调整不同的阈值,获得了二维孔隙度的变化曲线。根据微积分原理,采用三维孔隙率计算方法,建立了三维孔隙率相对于阈值的变化曲线。最后,研究结合 X 射线衍射(XRD)和能量色散光谱(EDS)图谱,对两种石灰基材料改性的夯土的孔隙率进行了对比分析。同时还分析了石灰基材料的改性机理。结果表明,本研究采用的三维孔隙率计算公式适用于石灰基材料改性夯土的孔隙率计算。石灰改性夯土的三维孔隙率计算误差大于水硬性石灰改性夯土。此外,由于两种石灰基材料的固化机理不同,水硬性石灰改性夯土的二维和三维孔隙率变化曲线没有水硬性石灰改性夯土陡峭。
Research on microstructure and porosity calculation of rammed soil modified by lime-based materials: the case of rammed earth of pingyao city wall, a world heritage site
Lime-based amendment materials, typically consisting of lime and hydraulic lime, are commonly used in the restoration of rammed earth heritage sites. To compare the modification characteristics of these two types of lime-based materials and to further elucidate the repair mechanisms of hydraulic lime-modified materials, this study utilized the rammed earth ramparts of Pingyao—an ancient city and World Heritage Site. Microstructural scans were conducted on rammed earth treated with both lime and hydraulic lime. The study comparatively analyzed the changes in the pore structure of the soil after treatment with these two lime-based materials. Using Image-Pro Plus (IPP) 6.0 image analysis software, the study obtained the change curve of two-dimensional porosity by adjusting various thresholds. Based on principles of calculus, a three-dimensional porosity calculation method was employed to establish the change curve of three-dimensional porosity relative to the threshold value. Finally, the study performed a comparative analysis of the porosity of the rammed soils modified with the two lime-based materials, integrating X-ray diffraction (XRD) and energy dispersive spectroscopy (EDS) patterns. The modification mechanisms of the lime-based materials were analyzed. The results indicate that the three-dimensional porosity calculation formula applied in this study is applicable for the porosity calculation of rammed soils modified with lime-based materials. The calculation error of the three-dimensional porosity of rammed soils modified with lime is greater than that of rammed soils modified with hydraulic lime. Moreover, due to differences in the curing mechanisms of the two types of lime-based materials, the two-dimensional and three-dimensional porosity change curves of rammed soils modified with hydraulic lime are less steep compared to those of rammed soils modified with lime.
期刊介绍:
Environmental Earth Sciences is an international multidisciplinary journal concerned with all aspects of interaction between humans, natural resources, ecosystems, special climates or unique geographic zones, and the earth:
Water and soil contamination caused by waste management and disposal practices
Environmental problems associated with transportation by land, air, or water
Geological processes that may impact biosystems or humans
Man-made or naturally occurring geological or hydrological hazards
Environmental problems associated with the recovery of materials from the earth
Environmental problems caused by extraction of minerals, coal, and ores, as well as oil and gas, water and alternative energy sources
Environmental impacts of exploration and recultivation – Environmental impacts of hazardous materials
Management of environmental data and information in data banks and information systems
Dissemination of knowledge on techniques, methods, approaches and experiences to improve and remediate the environment
In pursuit of these topics, the geoscientific disciplines are invited to contribute their knowledge and experience. Major disciplines include: hydrogeology, hydrochemistry, geochemistry, geophysics, engineering geology, remediation science, natural resources management, environmental climatology and biota, environmental geography, soil science and geomicrobiology.
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