高温下再生膨胀聚苯乙烯自密实混凝土的残余强度和导热系数

María Eugenia Maciá-Torregrosa, Á. Castillo, Rocío Sancho
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引用次数: 0

摘要

混凝土中最重要的物理劣化过程之一是暴露在高温下,这会影响其寿命使用期间的耐久性和稳定性。此外,如果自密实混凝土是由轻质骨料(如EPS)形成的,则有必要在其暴露于高温条件后分析其行为。本文研究了高温下EPS对自密实混凝土力学性能的影响。该研究评估了在22℃、150℃、350℃、500℃和ISO834环境下暴露后的物理力学性能,包括残余抗压强度和导热系数。试验结果表明,试样在350℃时的残余抗压强度损失几乎不显著,而在500℃和700℃时,试件的残余抗压强度分别降低了49%和70%。EPS有助于轻质SCC的轻质、隔热和对环境的承诺。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Residual Strength and Thermal Conductivity of Self-Compacting Concrete with Recycled Expanded Polystyrene Subjected to High Temperatures
One of the most important processes of physical deterioration in concrete is the exposure to high temperatures that influences their durability and stability during life service. In addition, if self-compacting concrete is formed by lightweight aggregates, such as EPS, it is necessary to analyze its behaviour after it has been exposed to high temperature conditions. This research shows research that evaluates the effect EPS on the mechanical properties of self-compacting concrete at high temperatures. This study evaluated physical-mechanical properties, including residual compressive strength and thermal conductivity after exposure at 22oC, 150oC, 350oC, 500oC and ISO834. Experimental results showed that the loss of residual compressive strength of the specimens up to 350oC is almost insignificance, but it will be reduced by 49% and 70% when temperatures increase up to 500oC and 700oC respectively. EPS contributes to lightness, thermal insulation, and commitment to the environment in lightweight SCC.
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