Karademir, T.2024-07-182024-07-18202397898199404002366-2557https://doi.org/10.1007/978-981-99-4041-7_15https://hdl.handle.net/11411/6270Proceedings of the 3rd International Conference on Environmental Geotechnology, Recycled Waste Materials and Sustainable Engineering (EGRWSE 2022) -- 15 September 2022 through 17 September 2022 -- -- 298959A laboratory experimental program including a series of compaction tests on various soil composite fill samples prepared by using sand, silt, clay and polypropylene (PP) fiber at different dry weight proportions was performed. As a result of the tests, the compaction curves were developed for distinct soil composite fill samples so as that the two most crucial and critical compaction engineering design parameters: maximum dry unit weight (?d-max) and optimum moisture content (wopt) were determined. The change in the detected values of ?d-max and wopt was investigated by addition of; (i) silt, (ii) clay, (iii) PP fiber, (iv) or selected two of them, (v) or all of them into sand, and thus, the behavior in those two important compaction characteristics (?d-max, wopt), that are decisive properties in design and construction of soil fill infrastructures, was identified for various different soil composite fill samples including different materials studied. It was seen that the ?d-max decreases, whereas, the wopt increases as a result of adding silt and/or clay into pure sandy soil. The greater change in the values was observed for clay inclusion compared to that of silt. On the other hand, the inclusion of PP fiber into sandy soil resulted in an increase in the measured values of ?d-max, while a decrease in the detected values of wopt. Consequently, the PP fiber served a relative advantage in comparison to the two other materials (silt, clay) by facilitating enhanced compaction properties for the improvement of the characteristics of soil composite fill under loading, and thereby, enabling highly densification or more desirable compaction of the fill not only at larger ?d-max but also at lower wopt so as to better comply with common design criteria in practice for the application of compaction procedure in the field during construction as well as to achieve higher bearing capacity (larger load-carrying resistance), and hence, superior performance during operation of the infrastructure built from this soil composite fill. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd 2023.eninfo:eu-repo/semantics/closedAccessCompaction PropertiesPp FibersSoil Composite FillsSoil MixturesCompactionPolypropylenesSandSiltSoftware TestingSoil TestingCompaction PropertyCompaction TestExperimental ProgramPolypropylene FiberPropertySandy SoilsSandysoilSilt ClaySoil Composite FillSoil MixturesFibersConference Object2-s2.0-8517272688810.1007/978-981-99-4041-7_15155Q4145370 LNCE