MODIFIKASI KOEFISIEN DIAGRAM TEGANGAN BETON SERAT PADA BERBAGAI SUHU

Prokons Pub Date : 2021-12-01 DOI:10.32497/wahanats.v26i2.3127

Primasiwi Harprastanti, A. Antonius, P. Purwanto, Nor Puji Lestari, Baiq Heny Sulistiawati, Danang Isnubroto

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Abstract

Fiber concrete is a building material that has been widely introduced in Indonesia. The advantages of fiber concrete are that it can increase the tensile strength of concrete, besides fiber concrete can increase ductility compared to concrete without fibers. In this study, steel wire fibers were used. The weakness of this fiber concrete is against high temperatures. Experiments were carried out with reinforcing fiber concrete at temperatures of 332°C, 621.4°C, and 957.4°C. Fiber concrete that is burned at high temperatures has a significant decrease in strength when it is burned reaching a temperature of 957.4°C. On the stress curve, fiber concrete that is burned at a temperature of 621.4°C has a stress drop of up to 67%. The stress-strain behavior of steel-wire fiber concrete is very ductile when compared to fiber-free concrete. In the concrete stress diagram, the ß1 and k3 coefficients in fiberless concrete and fiber concrete are not the same. Based on the calculations carried out, the value of k3 in fiber concrete at various temperatures is taken as 0.92fc’, while the value of ß1 in fiber concrete at various temperatures is 0.75.

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不同温度下纤维张力系数的修改

纤维混凝土是印尼广泛引进的一种建筑材料。纤维混凝土的优点是可以提高混凝土的抗拉强度，而且与不含纤维的混凝土相比，纤维混凝土可以提高延性。本研究采用钢丝纤维。这种纤维混凝土的缺点是耐高温。在332°C、621.4°C和957.4°C的温度下，对增强纤维混凝土进行了实验。高温下燃烧的纤维混凝土，当燃烧温度达到957.4℃时，强度有明显下降。在应力曲线上，纤维混凝土在621.4℃的温度下燃烧，其应力降高达67%。与无纤维混凝土相比，钢丝纤维混凝土的应力应变性能具有很好的延展性。在混凝土应力图中，无纤维混凝土和纤维混凝土的ß1和k3系数不相同。根据计算，取纤维混凝土在不同温度下的k3值为0.92fc '，而纤维混凝土在不同温度下的ß1值为0.75。

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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Prokons

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8 weeks