Impact of WO3-Nanoparticles on the Setting Time and Early Strength for Different Cementitious Materials

Materials Science Forum Pub Date : 2024-07-18 DOI:10.4028/p-kfj0i5

S.M.A. El-Gamal, Mostafa A. Sayed, Alaa Mohsen, M. Hazem, Mona M. Wetwet, F. M. Helmy, M. Ramadan

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Abstract

Generally, the setting time and early strength of the cementitious materials are good indications to identify their suitability to be employed as binding materials. Due to the high surface area of nanomaterials, it is considered one of the optimal solutions to modify these properties. Accordingly, this work is focused on comparing the impact of laboratory-prepared tungsten oxide nanoparticles (WO3-NP) on two cementitious materials: OPC and alkali-activated slag (AAS). The initial/final-setting time and early compressive strength up to 28-days of the OPC and AAS specimens, modified with 1, 2 wt.% WO3-NP, were investigated. The results displayed that WO3-NP has a significant impact on the acceleration of the initial/final-setting time of both binding materials. Moreover, the optimal dosage from WO3-NP (1 wt.%) upgraded the compressive strength by 19.5 and 15.1% for OPC and AAS, respectively after 7 days. The nucleation-seeds and nano-filler effect of WO3-NPs are the focal explanations behind improving these properties via the formation of strength-giving phases and then obtaining a compact microstructure as proved by XRD and SEM.

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WO3 纳米粒子对不同水泥基材料凝结时间和早期强度的影响

一般来说，水泥基材料的凝结时间和早期强度是确定其是否适合用作结合材料的良好指标。由于纳米材料具有高表面积，因此被认为是改变这些特性的最佳解决方案之一。因此，这项工作的重点是比较实验室制备的氧化钨纳米颗粒（WO3-NP）对两种胶凝材料的影响：OPC 和碱活性矿渣（AAS）的影响。研究了用 1、2 wt.% WO3-NP 改性的 OPC 和 AAS 试样的初/终凝时间和 28 天的早期抗压强度。结果表明，WO3-NP 对加快两种结合材料的初凝/终凝时间有显著影响。此外，WO3-NP 的最佳用量（1 wt.%）可在 7 天后将 OPC 和 AAS 的抗压强度分别提高 19.5% 和 15.1%。正如 XRD 和 SEM 所证明的那样，WO3-NP 的成核种子和纳米填料效应是通过形成赋予强度的相并获得致密的微观结构来改善这些性能的主要原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Materials Science Forum

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