Physio-mechanical and micro-structural properties of cost-effective waste eggshell-based self-healing bacterial concrete

Zerihun Mamo Asamenew, Fikreyesus Demeke Cherkos
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Abstract

Concrete is versatile but prone to cracking, which weakens its strength and durability. Self-healing concrete can automatically repair cracks, thereby preventing their occurrence. Previous studies have focused on improving self-healing efficiency in concrete to regulate cracks and minimize their effects. Unfortunately, the initial cost of self-healing concrete concerning calcite precipitation by bacterial actions is high. The current study implemented cost-reduction measures by synthesizing calcium lactate from waste eggshells and lactic acid using a more affordable bacterial growth medium made of yeast extract and molasses. To make self-healing concrete specimens, a mixture of OPC, sand, gravel, water, calcium lactate, and Bacillus subtilis bacterial solution was mixed directly at a concentration of (9.84 x 106 and 4.56 x 108) cells/mL. The study found that the workability of bacterial concrete exceeds that of conventional concrete, attributed to the addition of calcium lactate, which acts as a retarding agent and improves the mix's fluidity. Over a 28-day curing period, bacterial concrete with a dosage of 20 mL at a concentration of 9.84 x 106 cells/mL enhanced compressive strength by 14.37 % and reduced water absorption by 23.05 %. This may be due to the calcite precipitation by bacteria that fills voids and micro-cracks inside the concrete matrix. The study also discovered that cracks smaller than 0.5 mm were fully healed within 14 days due to calcite formation produced by bacterial activity. Images from scanning electron microscopes and X-ray diffraction verified the existence of calcite in these cracks. Additionally, the current study highlighted cost reductions in waste eggshell-based self-healing bacterial concrete compared to other study-related findings. Overall, the study emphasizes the advantages of using bacterial self-healing concrete: eco-friendly, cost-effective, enhances workability, strength, and durability, and can autonomously repair cracks without human intervention.

基于成本效益型废弃蛋壳的自愈合细菌混凝土的物理力学性能和微观结构特性
混凝土用途广泛,但容易开裂,从而削弱其强度和耐久性。自愈合混凝土可以自动修复裂缝,从而防止裂缝的产生。以往的研究侧重于提高混凝土的自愈效率,以调节裂缝并将其影响降至最低。遗憾的是,由于细菌作用导致方解石析出,自愈合混凝土的初始成本较高。目前的研究采取了降低成本的措施,利用更经济实惠的酵母提取物和糖蜜制成的细菌生长培养基,从废弃蛋壳和乳酸中合成乳酸钙。为了制作自愈合混凝土试件,将 OPC、砂、砾石、水、乳酸钙和枯草芽孢杆菌细菌溶液的混合物以(9.84 x 106 和 4.56 x 108)个细胞/毫升的浓度直接混合。研究发现,细菌混凝土的工作性超过了传统混凝土,这要归功于添加了乳酸钙,乳酸钙可作为缓凝剂,改善混合料的流动性。在 28 天的养护期内,细菌混凝土的用量为 20 mL,浓度为 9.84 x 106 cells/mL,抗压强度提高了 14.37%,吸水率降低了 23.05%。这可能是由于细菌析出的方解石填充了混凝土基体内部的空隙和微裂缝。研究还发现,由于细菌活动产生了方解石,小于 0.5 毫米的裂缝在 14 天内完全愈合。扫描电子显微镜和 X 射线衍射的图像证实了这些裂缝中方解石的存在。此外,与其他相关研究结果相比,本研究强调了基于废弃蛋壳的自愈合细菌混凝土的成本降低。总之,本研究强调了使用细菌自愈合混凝土的优势:生态友好、成本效益高、可提高工作性、强度和耐久性,并且无需人工干预即可自主修复裂缝。
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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CiteScore
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