Segundo Acevedo Zavaleta scite author profile

Segundo Acevedo Zavaleta

2Publications

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5Citation Statements Given

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National University of Trujillo

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Alkaline activation: Cement mortars and recycled brick dust

Anticona¹,

Aranda²,

Zavaleta³

et al. 2022

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In the present research work, the percentage of replacement by weight of recycled brick dust (PLR) in portland cement mortars (CP) was evaluated; replacement percentages were 20% , 40%, 60%, 80%, and 100%, respectively. The PLR was activated alkaline, for which a solution of NaOH (2M) and sodium silicate (3M) (30/70) v/v was used; the PLR was obtained from the selection and grinding of construction debris from the district of Víctor Larco Herrera (Trujillo-Peru); the PLR that was used in the mixtures was ground and sieved through a Nº400 mesh (only the passing powder was used). Once the PLR was obtained, the process of preparing mortar samples for compression tests (ASTM C-109) was carried out, according to the aforementioned replacement percentages. The ratio of aggregate (coarse sand) to binder (CP-PLR) was 3:1; the alkaline solution mixture used was included in the kneading water; the water/cement ratio used was 0.55, these three criteria were kept constant in all cases. After demolding and coding the mortars obtained (PLR and CP), they were cured in an electric oven (70 °C /72 hours) and then allowed to cure at room temperature for 28 days; the total curing time (28 days) was also applied to the PLR-free mortars. The compression tested samples were used to determine the percentage of water adsorption (ASTM C 642). The results of the compression test of the L-20 mortars (CP 80% , PLR 20% and the alkaline solution), produced the highest average compressive strength values (18.69 MPa); this value represents an increase of 59.74% , with respect to the PLR-free cement mortars (11.70 MPa, on average), in the same way the same mortar L-20, obtained an average percentage of water absorption of 8.43% , being 10.92% for the PLR-free cement mortar, which represents a decrease in the percentage of water absorption of 22.80%; The differences in the properties evaluated would be due to the formation of additional gels (CSH and CASH) to the typical process of hydration of the cement mortar, which reduce the voids typical of the cement mixtures and therefore increase the density of the mixture, generating the increase in compressive strength and the decrease in the percentage of water absorption. The results are corroborated through the use of XRD characterization techniques; FTIR -ATR, SEM, plus ANOVA statistical evaluation.

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Alkaline activation of mortars made from solid construction waste [Activación alcalina de morteros fabricados a partir de residuos sólidos de construcción]

2021

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In the present investigation the influence of the percentage by weight of replacement of portland cement (PC) by recycled concrete powder (RCP), alkaline activated, in percentages of 10%, 20%, 30%, 40% and 50%, was evaluated. which were selected from construction rubble left in the Buenos Aires spa, Víctor Larco Herrera district, Trujillo province. After being washed, they went to the grinding and sieving process (400 mesh), using only the through material. Specimens were manufactured according to the ASTM C-109 standard for the compression test in cement mortars, for the alkaline solution NaOH (4M) was used. The mortars obtained were cured in an oven at 70 ° C for 72 hours, and subsequently the curing was completed at room temperature, for a total time of 28 days. The results of the average compression test were 12.15 MPa, in the case of the PC mortar and 14.25 MPa in the best case (PC mortar and RCP-10%), the increase being 17.28%. The mix design using coarse sand and binder was kept constant at (3: 1), while the water / cement ratio (w / c) was 0.6 in all cases. The reason for the increase in compressive strength is due to the reaction between the RCP particles, alkaline solution and the calcium hydroxide produced during the hydration of the cement particles, which generate gels (CASH), which occupy the spaces left by the hydration process of the aforementioned cement particles, as they need calcium hydroxide. For all cases of the compression test, a total of 10 repetitions were carried out.

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