An approach based on P-wave velocity for grouting effectiveness evaluation in earthen sites

IF 2.6 1区艺术学 Q2 CHEMISTRY, ANALYTICAL

Heritage Science Pub Date : 2024-08-14 DOI:10.1186/s40494-024-01408-w

Weihao Li, Jingke Zhang, Nan Wang, Yichen Zhang, Bojia Qi, Jiayi Chen, Xingduo Yin

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Abstract

Grouting technology is the primary method for repairing cracks in earthen sites. However, there has been a long-standing lack of effective methods for evaluating grouting effectiveness. This paper proposes a field evaluation method based on P-wave velocity. This method explicitly discusses two scenarios where the P-wave velocity of the grout is either higher or lower than that of the soil, using the depth ℎ of the “hypothetical crack” as the evaluation indicator. The experimental results indicate that specimens with 20% and 40% defects show increases in ℎ values of 0.0113 m and 0.0166 m, respectively. Laboratory tests have demonstrated that this method can accurately evaluate grouting effectiveness and is not affected by the P-wave velocity of the soil. The application of this evaluation method to three typical earthen sites resulted in more reliable and easily quantifiable evaluation outcomes. By considering the width of grout, the method provides a more intuitive comparison of reparation effectiveness. The study demonstrates the feasibility of the proposed method, thereby facilitating effective crack reparation in earthen sites.

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基于 P 波速度的土质场地灌浆效果评估方法

灌浆技术是修复土质场地裂缝的主要方法。然而，长期以来一直缺乏有效的灌浆效果评估方法。本文提出了一种基于 P 波速度的现场评估方法。该方法以 "假定裂缝 "的深度恳请为评价指标，明确讨论了灌浆料的 P 波速度高于或低于土体 P 波速度的两种情况。实验结果表明，缺陷率分别为 20% 和 40% 的试样，其 ∆ 值分别增加了 0.0113 米和 0.0166 米。实验室测试表明，这种方法可以准确评估灌浆效果，并且不受土壤 P 波速度的影响。将这种评估方法应用于三个典型的土质场地后，评估结果更加可靠，也更容易量化。通过考虑灌浆的宽度，该方法可以更直观地比较修复效果。该研究证明了建议方法的可行性，从而促进了土质场地裂缝修复的有效性。

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来源期刊

Heritage Science Arts and Humanities-Conservation

CiteScore

4.00

自引率

20.00%

发文量

183

审稿时长

19 weeks

期刊介绍： Heritage Science is an open access journal publishing original peer-reviewed research covering: Understanding of the manufacturing processes, provenances, and environmental contexts of material types, objects, and buildings, of cultural significance including their historical significance. Understanding and prediction of physico-chemical and biological degradation processes of cultural artefacts, including climate change, and predictive heritage studies. Development and application of analytical and imaging methods or equipments for non-invasive, non-destructive or portable analysis of artwork and objects of cultural significance to identify component materials, degradation products and deterioration markers. Development and application of invasive and destructive methods for understanding the provenance of objects of cultural significance. Development and critical assessment of treatment materials and methods for artwork and objects of cultural significance. Development and application of statistical methods and algorithms for data analysis to further understanding of culturally significant objects. Publication of reference and corpus datasets as supplementary information to the statistical and analytical studies above. Description of novel technologies that can assist in the understanding of cultural heritage.