低承载力土壤的道路设计

IF 0.6 4区 工程技术 Q4 ENGINEERING, CIVIL Baltic Journal of Road and Bridge Engineering Pub Date : 2020-08-14 DOI:10.7250/bjrbe.2020-15.481
Endijs Virsis, A. Paeglitis, A. Zariņš
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引用次数: 4

摘要

承载力较弱的土壤,如泥炭和有机地基,在拉脱维亚很普遍。在道路重建项目的岩土工程勘察过程中,在许多情况下,发现的物理力学性能较低的土壤位于现有道路结构下方。对于道路设计工程师来说,如何确保道路承载能力并防止各种变形的发生是一个挑战。世界各地正在开发各种地基结构加固和稳定的方法和技术。在道路结构设计过程中,重要的是分析岩土工程情况,并确定道路结构下地层可能发生变形的主要原因。每一种已开发的软弱和不稳定土壤加固、稳定技术都是为解决特定问题而设计的。如果不准确和不小心地确定问题的原因,道路变形可能会影响最近设计的道路的性能,甚至使现有问题变得更糟。本文的目的是展示拉脱维亚使用的土壤加固方法,并分析这些方法的优缺点。
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Road Design on Low Bearing Capacity Soils
Soil with weak bearing capacity, like peat and organic grounds, is widespread in Latvia. During the geotechnical investigation for road reconstruction projects, in many cases the discovered soils with low physical-mechanical properties are located below the existing road structure. It is a challenge for a road design engineer to find a way how to ensure road loadbearing capacity and prevent the occurrence of various deformations. Various methods and technologies for ground structure reinforcement and stabilization are being developed worldwide. During design of road structures, it is important to analyse the geotechnical situation and to identify the main reasons why deformations could occur in the ground layers under the road structure. Each of the developed technologies for weak and unstable soil reinforcement, stabilization is designed to solve a specific problem. Inaccurately and carelessly identifying the causes of problems, road deformations can affect the performance of the recently designed road and even make the existing problem worse. The aim of this paper is to show the soil strengthening methods used in Latvia and to analyse the benefits and disadvantages of these methods.
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来源期刊
Baltic Journal of Road and Bridge Engineering
Baltic Journal of Road and Bridge Engineering 工程技术-工程:土木
CiteScore
2.10
自引率
9.10%
发文量
25
审稿时长
>12 weeks
期刊介绍: THE JOURNAL IS DESIGNED FOR PUBLISHING PAPERS CONCERNING THE FOLLOWING AREAS OF RESEARCH: road and bridge research and design, road construction materials and technologies, bridge construction materials and technologies, road and bridge repair, road and bridge maintenance, traffic safety, road and bridge information technologies, environmental issues, road climatology, low-volume roads, normative documentation, quality management and assurance, road infrastructure and its assessment, asset management, road and bridge construction financing, specialist pre-service and in-service training;
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