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    Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/8934

    Título
    New Procedure for Compacting Prismatic Specimens of Cement-Treated Base Materials
    Autor
    Linares Unamunzaga, AlaitzAutoridad UBU Orcid
    Gonzalo Orden, HernánAutoridad UBU Orcid
    Díaz Minguela, Jesús
    Pérez Acebo, Heriberto
    Publicado en
    Applied Sciences. 2018, V. 8, n. 6, 970
    Editorial
    MDPI
    Fecha de publicación
    2018-06
    ISSN
    2076-3417
    DOI
    10.3390/app8060970
    Résumé
    Understanding the long-term behaviour of cement-treated base materials is a key factor to improve its design and obtain environmentally friendly pavement base materials. Their characterization requires manufacturing prismatic specimens. However, various authors highlight the absence of standardized test methods for fabricating beams in the field and laboratory, which is not an easy task because it depends on the qualification and experience of the testing team. The aim of this paper is to present a new device and procedure for compacting prismatic specimens of cement-treated base materials. In this research, it was used for compacting soil-cement to simulate its performance as a road base material. This device employs elements that are generally available in a concrete laboratory test, such as a vibrating table or prismatic moulds. Once the procedure was established, and in order to verify its suitability, flexural and compressive strength tests were carried out. Results showed that the values obtained were consistent with this material and, despite the heterogeneity of the material, specimens from the same batch provided similar results and, hence, validated the compaction process. This new compacting procedure can improve understanding of the long-term performance of cement-treated materials from flexural and fatigue tests.
    Palabras clave
    Soil-cement
    Compacting procedure
    Cement-treated materials
    Base materials
    Unconfined compressive strength
    Flexural strength
    Materia
    Ingeniería civil
    Civil engineering
    Resistencia de materiales
    Strength of materials
    Materiales de construcción
    Building materials
    URI
    http://hdl.handle.net/10259/8934
    Versión del editor
    https://doi.org/10.3390/app8060970
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    Linares-as_2018.pdf
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