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Stabilization of Loose Soils as Part of Sustainable Development of Road Infrastructure

Author

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  • Konrad Piechowicz

    (Institute of Civil Engineering, Warsaw University of Life Sciences—SGGW, 02-787 Warsaw, Poland)

  • Sylwia Szymanek

    (Institute of Civil Engineering, Warsaw University of Life Sciences—SGGW, 02-787 Warsaw, Poland)

  • Jan Kowalski

    (Institute of Civil Engineering, Warsaw University of Life Sciences—SGGW, 02-787 Warsaw, Poland)

  • Marzena Lendo-Siwicka

    (Institute of Civil Engineering, Warsaw University of Life Sciences—SGGW, 02-787 Warsaw, Poland)

Abstract

In the context of growing demand for road infrastructure expansion, sustainability is of key importance. Enhancing road construction technology ensures efficient, durable transportation infrastructure, vital for economic growth. Responsible road construction, especially in areas of historical and environmental significance, is essential. Preserving ecosystems and local heritage in road planning protects valuable areas and supports regional sustainability. Rural roads, often in forested areas, should maintain natural aesthetics. Economic challenges require flexible, efficient roads. Many existing unpaved roads, especially in rural and forest environments, fail to meet increasing traffic and load of heavy agricultural and maintenance vehicles. Soil stabilization methods, discussed in various publications, offer sustainable solutions. Research on ecofriendly binding additives provides the opportunity to reduce cement consumption and CO 2 emissions. Such innovations enhance road efficiency, reduce maintenance costs, and benefit the environment. Investing in modern road technologies mitigates climate change effects by reducing emissions and protecting ecosystems. Our research indicates that soil stabilization technologies significantly improve road strength and durability. Additives can increase compressive strength by over 50% with minimal cement content. Continued research into road quality and durability is vital for sustainable transport infrastructure development. The results presented in this paper were obtained after two periods of solidification: after 7 and 30 days, with three types of ads (ion-exchangeable, chemical, and polymeric) to cement. In all tests, compaction strength improved by at least 35% in samples with the lowest cement content.

Suggested Citation

  • Konrad Piechowicz & Sylwia Szymanek & Jan Kowalski & Marzena Lendo-Siwicka, 2024. "Stabilization of Loose Soils as Part of Sustainable Development of Road Infrastructure," Sustainability, MDPI, vol. 16(9), pages 1-11, April.
  • Handle: RePEc:gam:jsusta:v:16:y:2024:i:9:p:3592-:d:1382292
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    References listed on IDEAS

    as
    1. Wenxia Gan & Yuxuan Zhang & Jinying Xu & Ruqin Yang & Anna Xiao & Xiaodi Hu, 2023. "Spatial Distribution of Soil Heavy Metal Concentrations in Road-Neighboring Areas Using UAV-Based Hyperspectral Remote Sensing and GIS Technology," Sustainability, MDPI, vol. 15(13), pages 1-19, June.
    2. Ibrahim H. Hashim & Rania M. Badawy & Usama Heneash, 2023. "Impact of Pavement Defects on Traffic Operational Performance," Sustainability, MDPI, vol. 15(10), pages 1-18, May.
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