M. Sasi Rekha, S. R. Sumathy, Krishna Prakash Arunachalam, Siva Avudaiappan, Mohamed Abbas, David Blanco Fernande
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引用次数: 0
摘要
土工聚合物混凝土由工业废弃物的副产品制成,是一种前景广阔的建筑材料,它可以减少二氧化碳排放,并且无需使用传统波特兰水泥中使用的自然资源。尽管多年来对土工聚合物混凝土的不同特性进行了大量研究,但对各种因素如何影响其特性仍缺乏了解。在这项研究中,我们使用 GGBS 和 F 级粉煤灰作为土工聚合物粘结剂,探讨了常温养护土工聚合物混凝土的凝结时间、工作性和抗压强度。我们将氢氧化钠(SH)的用量、粉煤灰与 GGBS 的比率以及粘结剂含量与碱性溶液的比率(AS/B)视为影响因素。通过对 45 个土工聚合物混凝土拌合物的实验,我们发现增加氢氧化钠浓度和 GGBS 含量,以及降低 AS/B 比率,可使工作性降低约 60%,凝结时间缩短 63-71%。然而,降低 AS/B 比率和增加 GGBS 的替代量可提高抗压强度。与各种 SH 浓度的混合料相比,在 SH 浓度较高(10 M 和 12 M)时,强度略有下降。这些发现将有助于生产强度更高的土工聚合物混凝土成分。
Effects of alkaline concentration on workability and strength properties of ambient cured green geopolymer concrete
Geopolymer concrete, made with by-products from industrial waste, is a promising construction material that reduces carbon dioxide emissions and eliminates the need for natural resources used in traditional Portland cement. Despite numerous studies conducted over the years to investigate different characteristics of geopolymer concrete, there remains a lack of understanding on how various factors affect its properties. In this investigation, we explore the setting time, workability and compressive strength of ambient-cured geopolymer concrete, using GGBS and class F fly ash as geopolymer binder. We consider the quantity of sodium hydroxide (SH), fly ash to GGBS ratio and binder content to alkaline solution ratio (AS/B) as influencing factors. Based on experiments with 45 mixes of geopolymer concrete, we found that increasing SH concentration and GGBS content, as well as reducing AS/B ratio, decreased workability by about 60% and shortened setting time by 63–71%. However, a reduction in AS/B ratio and increased replacement of GGBS led to improved compressive strength. Compared to mixes with various SH concentrations, a slight decrease in strength was observed at higher SH concentrations (10 M and 12 M). These findings will be useful to produce geopolymer concrete components with greater strength.
期刊介绍:
The Asian Journal of Civil Engineering (Building and Housing) welcomes articles and research contributions on topics such as:- Structural analysis and design - Earthquake and structural engineering - New building materials and concrete technology - Sustainable building and energy conservation - Housing and planning - Construction management - Optimal design of structuresPlease note that the journal will not accept papers in the area of hydraulic or geotechnical engineering, traffic/transportation or road making engineering, and on materials relevant to non-structural buildings, e.g. materials for road making and asphalt. Although the journal will publish authoritative papers on theoretical and experimental research works and advanced applications, it may also feature, when appropriate: a) tutorial survey type papers reviewing some fields of civil engineering; b) short communications and research notes; c) book reviews and conference announcements.
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