Album of Porous Media: Structure and Dynamics
VI. TRANSPORT IN POROUS MEDIA: DOES THE INTERFACIAL TRANSITION ZONE INFLUENCE MOISTURE TRANSPORT IN CONCRETE?
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Dalton, L; Lamanna, J; Jones, S; Pour-Ghaz, M
January 1, 2023
Several postulates exist to potentially explain the formation of the Interfacial Transition Zone (ITZ) [1, 2, 3]. ITZ is a region at the interface between aggregates and the binder in concrete that is believed to be more porous; the interconnected thickness of ITZ is reported to vary between 15 and 100 µm [3]. To better understand the contributions of ITZ during mass transport, a concrete cylinder containing a single coarse aggregate was scanned during water absorption using simultaneous Neutron and X-ray Tomography [4].
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Dalton, L., Lamanna, J., Jones, S., & Pour-Ghaz, M. (2023). VI. TRANSPORT IN POROUS MEDIA: DOES THE INTERFACIAL TRANSITION ZONE INFLUENCE MOISTURE TRANSPORT IN CONCRETE? In Album of Porous Media: Structure and Dynamics (p. 107). https://doi.org/10.1007/978-3-031-23800-0_87
Dalton, L., J. Lamanna, S. Jones, and M. Pour-Ghaz. “VI. TRANSPORT IN POROUS MEDIA: DOES THE INTERFACIAL TRANSITION ZONE INFLUENCE MOISTURE TRANSPORT IN CONCRETE?” In Album of Porous Media: Structure and Dynamics, 107, 2023. https://doi.org/10.1007/978-3-031-23800-0_87.
Dalton L, Lamanna J, Jones S, Pour-Ghaz M. VI. TRANSPORT IN POROUS MEDIA: DOES THE INTERFACIAL TRANSITION ZONE INFLUENCE MOISTURE TRANSPORT IN CONCRETE? In: Album of Porous Media: Structure and Dynamics. 2023. p. 107.
Dalton, L., et al. “VI. TRANSPORT IN POROUS MEDIA: DOES THE INTERFACIAL TRANSITION ZONE INFLUENCE MOISTURE TRANSPORT IN CONCRETE?” Album of Porous Media: Structure and Dynamics, 2023, p. 107. Scopus, doi:10.1007/978-3-031-23800-0_87.
Dalton L, Lamanna J, Jones S, Pour-Ghaz M. VI. TRANSPORT IN POROUS MEDIA: DOES THE INTERFACIAL TRANSITION ZONE INFLUENCE MOISTURE TRANSPORT IN CONCRETE? Album of Porous Media: Structure and Dynamics. 2023. p. 107.