不同外加剂对橡胶颗粒集成地聚合物混凝土性能的影响

Parmender Gill , Parveen Jangra , Rajeev Roychand , Mohammad Saberian , Jie Li
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引用次数: 10

摘要

提倡在建筑材料中使用废轮胎,以遏制公开处理不可生物降解的废橡胶造成的环境破坏。轮胎磨石作为地质聚合物混凝土(GPC)中的骨料,将通过减少天然骨料的消耗来提高其可持续性价值。尽管关于橡胶集料对GPC特性的损害的文献有限,但本研究旨在确定在GPC中使用胶粉(CR)可能产生的副作用程度。此外,本研究旨在解决使用水泥和纤维等添加剂导致的强度和耐久性降低的问题。当根据ASTM标准进行测试时,具有按体积计细骨料(0、5、10和15%)的CR替代物的地质聚合物样品显示出高达17%的抗压强度降低。用普通硅酸盐水泥(OPC)(0%、5%、10%、15%和20%)代替总粘合剂重量,提高了具有最高OPC百分比的橡胶化地质聚合物混合物的微观结构完整性。尽管产生了新的和额外的结合产物(CSH和CASH凝胶),GPC表面在酸暴露下很容易分解。最佳的玻璃纤维(GF)增强剂(0.30%)有效地破坏了GPC孔隙网络,从而降低了基质的酸渗透性。钢纤维(SF)的进一步添加提高了GPC试样的抗压强度和抗弯强度。为了分析这些添加剂对GPC微观结构的累积影响,进行了扫描电子显微镜(SEM)、X射线衍射(XRD)和傅里叶变换红外光谱(FTIR)等辅助测试。尽管这些添加剂提高了橡胶化地质聚合物的整体性能,但它可能会在一定程度上降低其绿色方面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of various additives on the crumb rubber integrated geopolymer concrete

The use of scrap tyres in construction materials has been promoted to curb the environmental exploitation caused by the open disposal of non-biodegradable waste rubber. Tyre grinds as aggregates in geopolymer concrete (GPC) would increase its sustainability value by reducing the consumption of natural aggregates. Although there is limited literature addressing the damage to GPC characteristics caused by rubber aggregates, this investigation was designed to determine the extent of possible side effects of using crumb rubber (CR) in GPC. Additionally, this investigation aims to address any resulting reduction in strength and durability using additives such as cement and fibres. Geopolymer specimens with CR replacement of fine aggregates by volume (0, 5, 10 and 15%) showed a compressive strength reduction of up to 17% when tested according to ASTM standards. Substituting the total binder by weight with Ordinary Portland cement (OPC) (0%, 5%, 10%, 15%, and 20%) improved the microstructural integrity of the rubberised geopolymer mix with the highest percentage of OPC. Despite producing new and additional binding products (CSH and CASH gels), the GPC surface readily disintegrated under acid exposure. Optimum glass fibres (GF) reinforcement (0.30%) effectively disrupted the GPC pore network, consequently reducing the acid permeability of the matrix. Further addition of steel fibres (SF) enhanced the GPC specimen's compressive and flexural strength. To analyse the cumulative effect of these additives on GPC microstructure, supporting tests such as scanning electron microscopy (SEM), X-ray diffraction (XRD), and Fourier transform infrared (FTIR) spectroscopy were carried out. Although these additives enhanced the overall performance of rubberised geopolymer, it might somewhat reduce its green aspect.

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