STUDY OF STRESS-STRAIN RELATIONSHIP OF CONCRETE WITH SILICA FUME ADDED AS PARTIAL REPLACEMENT FOR CEMENT

Haya Luthfiana, Wibowo Wibowo, Endah Safitri
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Abstract

This study investigates the stress-strain relationship of concrete with silica fume used as a partial replacement for cement, aiming to enhance concrete quality and durability. Silica fume, acting as a cement substitute, fills voids between cement particles, reducing pore size and enhancing concrete properties. Concrete specimens were prepared with varying silica fume content (0% to 20%) and subjected to rigorous testing using Compression Testing Machines (CTM). Results indicate a significant 55.91% increase in compressive strength with 10% silica fume, compared to conventional concrete. Beyond this optimal point, compressive strength diminishes due to reduced pore volume. Moreover, silica fume influences stress and strain characteristics, with higher maximum stress and strain observed in silica fume concrete. The research employs polynomial equations to model the stress-strain relationship post-peak stress, revealing valuable insights for concrete design and performance prediction. This study underscores the importance of silica fume as a beneficial additive, contributing to concrete strength and durability. Further investigation is needed to fully understand the mechanical properties and optimize the use of silica fume in concrete construction, ensuring improved performance and longevity of concrete structures.
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添加硅灰部分替代水泥的混凝土应力应变关系研究
本研究调查了硅灰部分替代水泥的混凝土应力-应变关系,旨在提高混凝土的质量和耐久性。硅灰作为水泥替代品,可填充水泥颗粒之间的空隙,减小孔隙尺寸,提高混凝土性能。我们制备了不同硅灰含量(0% 至 20%)的混凝土试样,并使用压缩试验机(CTM)进行了严格测试。结果表明,与传统混凝土相比,硅灰含量为 10%的混凝土抗压强度大幅提高了 55.91%。超过这个最佳点后,抗压强度会因孔隙减少而降低。此外,硅灰还会影响应力和应变特性,在硅灰混凝土中观察到的最大应力和应变更高。研究采用多项式方程来模拟峰值应力后的应力-应变关系,为混凝土设计和性能预测提供了有价值的见解。这项研究强调了硅灰作为有益添加剂的重要性,有助于提高混凝土强度和耐久性。要充分了解硅灰的力学性能并优化其在混凝土施工中的使用,确保混凝土结构的性能和寿命得到改善,还需要进一步的研究。
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