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    EXPERIMENTAL INVESTIGATIONS ON THE PROPERTIES OF CONCRETE CONTAINING PRE-SOAKED RECYCLED FINE AGGREGATE
    (Associated Cement Companies Ltd., 2022) Saha, S.; C, C.; Ganiger, M.S.; Sajjan, S.
    Recycled fine aggregate (RFA) becomes very significant and promising alternative materials for natural fine aggregate (river sand) to be used in the production of concrete. But, most of the past research works indicated higher water absorption capacity of RFA as one of the key factor to affect the properties of fresh concrete. Therefore, an experimental attempt has been made to address the issues related to water absorption capacity of RFA by soaking it in water for 24 hours prior to use as alternative fine aggregate for the production of the fresh concrete. Mechanical properties of concrete such as compressive strength, splitting tensile strength, and flexural strength, and durability properties such as resistance against acidic and alkaline environment, chloride permeability test for ordinary Portland cement (OPC) and Portland pozzolana cement (PPC) based concrete mixes made with soaked recycled fine aggregates (SRFA) are determined, and analysed. For OPC, and PPC based concrete, respectively 4.32, and 20.75 % in compressive strength at 28 days; 2.69, and 27.24 % increase in flexural strength; 6.38, and 40 % increase in splitting tensile strength at 28 days were observed for the concrete mixes with SRFA compared to the mixes with RFA. Experimental results indicated notable improvement of the mechanical, and durability properties of concrete mixes when recycled fine aggregates were soaked in water prior to use. © 2022, Associated Cement Companies Ltd.. All rights reserved.
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    Optimising cement-based electrolytes: Ionic strength analysis and electrical performance in cement-based battery applications
    (Taylor and Francis Ltd., 2025) Sundaramoorthi, A.; Thangaraju, P.
    A fully developed and commercialised cement-based battery system has the potential to revolutionise building technology. This paper evaluates the performance of cement-based batteries and explores the effect of adding Supplementary Cementitious Materials (SCMs) like fly ash, silica fume and blast slag, and ion-conductive particles, with copper and aluminium as electrode combinations. Cement-based matrix as the electrolyte of the developed battery system, is characterised for its ionic strength and is correlated to the electrical performance of the system. The solid phase of the different electrolyte mixes is also characterised using FE-SEM and XRD. Electrical performance parameters like open circuit voltage, discharge performance under constant current rate, and capacity measurements of devised battery systems are reported in this paper. The combination of cement with silica fume at 5%, along with epsomite (SF5) resulted in a 250% (approx.) higher discharge life and capacity in comparison to the control system (CM45). The ionic strength of the pore solution also showed a strong positive correlation (R2 = 0.92) with the discharge life across all mixes, highlighting its critical role in the battery system’s performance. The SF5 mix also showed sufficient mechanical stability with a compressive strength of 19.3 and 29.4 MPa at 7-d and 28-day, respectively. © 2025 Informa UK Limited, trading as Taylor & Francis Group.