Structural behavior of Lightweight and High strength Layered Hollow Core Slabs

IF 1.2 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Frattura ed Integrita Strutturale Pub Date : 2022-12-21 DOI:10.3221/igf-esis.63.13

Asmaa Ghamry, Ahmed Esia, Louay Aboul-Nour

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引用次数: 1

Abstract

A new technique of Layered Hollow Core Slab (LHCS) has been used to obtain a slab with an optimum weight-to-strength ratio. Specimens with a 90 mm top layer of High Strength Concrete (HSC) and a 90 mm bottom layer of Lightweight Aggregate Concrete (LWAC) were examined. Nine full-scale slabs with dimensions of 1600* 450* 180 mm were tested under a 4-point loading test. The %core, a/d, RFT ratio, and connection method were the different studied parameters. A push-out test was conducted on triplet specimens to study the bond strength at the interface between HSC jacket and LWAC cubes using bond agent material or shear dowels, or without treatment, to determine which method of them is suitable for connecting the two layers of the tested slabs. Load, deflection, ductility, strain, crack pattern, and mode of failure were studied. The results indicate that ultimate strength is enhanced with decreasing a/d and %core and with an increasing RFT ratio of the LHCS specimens. Using shear dowels ensures an efficient bond between the two layers of the tested slabs. ANSYS program used for modelling the slab. The numerical study accepted the experimental data with a variation of less than 10% for all slabs.

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轻质高强层状空心芯板的结构性能

采用层状空心芯板(LHCS)新技术，获得了具有最佳重强比的板。试件顶部为90 mm高强度混凝土(HSC)，底部为90 mm轻骨料混凝土(LWAC)。对9块尺寸为1600* 450* 180mm的全尺寸板进行4点加载试验。不同的研究参数为%岩心、a/d、RFT比和连接方法。通过对三联体试件进行推出试验，研究使用粘结剂材料、剪切钉、不处理的HSC夹套与LWAC立方体界面的粘结强度，以确定哪一种方法适合连接两层试件。载荷，挠度，延性，应变，裂纹模式和破坏模式进行了研究。结果表明:随着a/d和岩心%的减小以及RFT比的增大，LHCS试件的极限强度有所提高;使用剪切销钉确保两层测试板之间的有效结合。采用ANSYS程序对板坯进行建模。数值研究接受实验数据，所有板的变形幅度小于10%。

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