未经处理的Abaca纤维对轻泡沫混凝土力学性能的影响

IF 0.5 Q4 ENGINEERING, CIVIL Architecture Civil Engineering Environment Pub Date : 2022-09-01 DOI:10.2478/acee-2022-0030
Md Azree Othuman Mydin
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引用次数: 0

摘要

目前,随着对生态系统的持久影响,建筑材料的支出急剧增长,这使得学术界认识到天然植物纤维(如abaca纤维(AF))可以提高混凝土的力学性能。AF是大量可获得的,这使得它相当相关地被用作轻质泡沫混凝土(LFC)的强化材料。此外,天然植物纤维增强混凝土已经在建筑中逐步应用了几十年,以减少静荷载下的裂缝增长。本文期望研究在LFC中加入AF以提高其力学性能的有效性。分别以0.00%、0.15%、0.30%、0.45%和0.60%的重量分数对密度为550 kg/m3的LFC试样进行AF增强。三个参数进行了评估,其中抗弯强度,抗压强度和抗拉强度。结果表明,添加0.45% AF时,LFC的抗压、弯曲和劈裂拉伸强度最佳。AF的存在通过填充LFC结构内部的空间、微裂纹和间隙来增强材料的强度。此外,当LFC胶凝基质处于塑性状态时,AF有助于减少裂纹扩展。然而,在最佳AF添加量之外,AF的积累和不均匀分布导致了LFC强度性能的显著降低。这项初步调查的结果将有助于更好地了解植物纤维在LFC中的潜在利用。推动LFC材料和基础设施的可持续发展和应用具有重要意义。
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Influence of Untreated Abaca Fibre on Mechanical Properties of Lightweight Foamed Concrete
Abstract Presently, the expenditure on construction materials grows dramatically along with the enduring effect on the ecosystem, and it has led the academics to the recognition of natural plant fibres such as abaca fibre (AF) for enhancing the mechanical properties of concrete. AF is plentifully obtainable making it fairly relevant to be employed as a strengthening material in lightweight foamed concrete (LFC). Moreover, natural plant fibre-reinforced concrete has been progressively utilized in construction for several decades to decrease crack growth under the static load. This paper anticipates examining the effectiveness of the addition of AF in LFC to enhance its mechanical properties. LFC specimens of 550 kg/m3 density were reinforced with AF at weight fractions of 0.00%, 0.15%, 0.30%, 0.45% and 0.60%. Three parameters have been assessed which were flexural strength, compressive strength and tensile strength. The results revealed that adding 0.45% AF into LFC enables optimal compressive, flexural and splitting tensile strengths. The presence of AF augments material strength by filling spaces, micro-cracks, and gaps inside the LFC structure. Additionally, AF helped reduce crack spreading when the plastic state of the LFC cementitious matrix was loaded. Though, further, than the optimum level of AF addition, accumulation and the non-uniform distribution of AF were identified, which triggers the lowering of the LFC strength properties substantially. The output of this preliminary investigation would give a better understanding of the potential utilization of plant fibre in LFC. It is of great importance to drive the sustainable development and application of LFC material and infrastructures.
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