Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Stabilisation of soils with emulsified sulphur asphalt for road applications
This paper presents the study carried out to assess and compare the performance of marginal soils, namely marl, sabkha and dune sand stabilised with emulsified sulphur asphalt (ESA) with the mixtures of the same soils stabilised with conventional emulsified asphalt (EA) to be used as a base layer for road layers. The mixtures of ESA and EA for the three marginal soils were designed utilising 2% Portland cement and were optimised to meet dry and wet Marshall stability requirements. Designed mixtures were assessed for dry indirect tensile strength (ITS), static triaxial (shear strength) and dynamic resilient modulus at 22°C. Results indicate that ESA decreased the stability and shear strength of the treated soils compared to the conventional EA. On the other hand, there was an improvement in ITS, especially for marl and sabkha soils, and an increase in the resilient modulus of soils–ESA mixtures compared with standard soils–EA mixtures. ESA can be used successfully to construct base layers for roads from available marginal soils since it fulfilled the specification requirements.
Stabilisation of soils with emulsified sulphur asphalt for road applications
This paper presents the study carried out to assess and compare the performance of marginal soils, namely marl, sabkha and dune sand stabilised with emulsified sulphur asphalt (ESA) with the mixtures of the same soils stabilised with conventional emulsified asphalt (EA) to be used as a base layer for road layers. The mixtures of ESA and EA for the three marginal soils were designed utilising 2% Portland cement and were optimised to meet dry and wet Marshall stability requirements. Designed mixtures were assessed for dry indirect tensile strength (ITS), static triaxial (shear strength) and dynamic resilient modulus at 22°C. Results indicate that ESA decreased the stability and shear strength of the treated soils compared to the conventional EA. On the other hand, there was an improvement in ITS, especially for marl and sabkha soils, and an increase in the resilient modulus of soils–ESA mixtures compared with standard soils–EA mixtures. ESA can be used successfully to construct base layers for roads from available marginal soils since it fulfilled the specification requirements.
Stabilisation of soils with emulsified sulphur asphalt for road applications
Abdullah, Gamil M.S. (Autor:in) / Al-Abdul Wahhab, Hamad I. (Autor:in)
Road Materials and Pavement Design ; 20 ; 1228-1242
04.07.2019
15 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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