ANALYSIS OF TIMBERCRETE: SAWDUST-INFUSED CONCRETE MIXTURES

Open Journal of Environmental Research (ISSN: 2734-2085) Pub Date : 2024-05-15 DOI:10.52417/ojer.v5i1.591

M. O. Fasasi

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Abstract

This investigation aims to advance sustainable construction practices by investigating the feasibility and environmental benefits of incorporating sawdust instead of sand in concrete mixtures. By using sawdust, a byproduct of the forestry industry, in the process of making concrete, the investigation addresses the pressing need for resource conservation and waste reduction, since the construction sector is a significant user of raw materials. According to British European Norm Standard BS 8500-2:2023 for C35 grade concrete, the experimental programme examines how different percentages of sawdust (0%, 5%, 10%, 15%, 20%, and 25%) substituted for sand affect the physical characteristics of concrete, including its compressive strength, dry density, and water absorption. The workability, consistency, and strength of the sawdust-incorporated concrete mixes were assessed by a combination of techniques including sieve analysis, slump testing, casting and curing procedures, and compression tests. The results indicate a potential reduction in material costs and environmental impact with the ideal sawdust content by showing a negative association between the amount of sawdust and the concrete's density and compressive strength. A larger sawdust content was associated with higher rates of water absorption, highlighting the hygroscopic nature of sawdust and its implications for the durability of concrete. According to the investigation's results, it is possible to substitute concrete with up to 5% sawdust, providing an environmentally friendly alternative to conventional concrete while still having sufficient mechanical properties for use in construction. It is recommended that further research be conducted to improve sawdust's compatibility with cementitious materials, increase the durability of sawdust-incorporated concrete, and create industry guidelines for its use. This investigation contributes to the body of knowledge on environmentally friendly building materials by promoting the use of sawdust and other eco-friendly substitutes in the building sector to reduce negative effects on the environment and increase resource efficiency.

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木材混凝土分析：锯屑注入混凝土混合物

这项调查旨在通过研究在混凝土混合物中用锯屑代替沙子的可行性和环境效益，推进可持续建筑实践。由于建筑行业是原材料的重要使用者，通过在制造混凝土的过程中使用锯屑这种林业副产品，这项调查解决了节约资源和减少废物的迫切需要。根据适用于 C35 级混凝土的英国欧洲规范标准 BS 8500-2:2023，实验计划研究了不同比例的锯屑（0%、5%、10%、15%、20% 和 25%）替代砂子对混凝土物理特性的影响，包括抗压强度、干密度和吸水性。通过筛分分析、坍落度测试、浇注和养护程序以及压缩试验等综合技术，对掺入锯屑的混凝土拌合物的工作性、稠度和强度进行了评估。结果表明，理想的锯末含量可降低材料成本，减少对环境的影响，因为锯末量与混凝土的密度和抗压强度呈负相关。锯末含量越大，吸水率越高，这突出了锯末的吸湿性及其对混凝土耐久性的影响。根据调查结果，可以用不超过 5%的锯末替代混凝土，为传统混凝土提供了一种环保型替代品，同时在建筑中仍具有足够的机械性能。建议开展进一步研究，以改善锯末与胶凝材料的兼容性，提高锯末掺合混凝土的耐久性，并为其使用制定行业准则。这项调查通过在建筑领域推广使用锯末和其他生态友好型替代品来减少对环境的负面影响并提高资源效率，从而为环保型建筑材料的知识体系做出了贡献。

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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Open Journal of Environmental Research (ISSN: 2734-2085)

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