This study was conducted to determine the compressive strength of lightweight concrete (LWC) containing expended polystyrene (EPS) or most known as polystyrene beads which is designated for load bearing wall application. In order to produce the LWC, EPS beads were chosen as lightweight aggregate because it gives advantages in term of their characteristic such as low density, high strength, good thermal and sound insulation. Besides that, it was also suitable for structure that would be exposed to impact like shear wall. In this study, twelve (12) unreinforced concrete wall panel with dimension 100 x 600 x 600 mm were produced. The size of polystyrene beads were 3.0 mm in diameter. There are four (4) concrete mix proportion that were used in this study which is (1:3:0), (1:2.5:0.5), (1:2:1) and (1:1.5:1.5). All sample were tested at Heavy Structure Laboratory, University Malaysia Pahang. The lightweight concrete wall panel were tested by using Magness Frame machine in order to get the ultimate axial and deflection parameter. The concrete wall panel were setup under pinned- fixed end condition. Then ultimate axial load of wall panel were determine by using British Standard (BS98110-97). Based on the test conducted, the compressive strength of lightweight concrete cube for RATIO 2 is the highest which is 20.645 N/mm2 while the lowest is RATIO 3 with strength 16.545 N/mm2.While for ultimate axial load, the maximum ultimate axial load at 28 days is RATIO 1 which is 194.79 kN and the lowest is RATIO 3 with 136.25 kN. Hence, when compare between RATIO 1 with the CONTROL, the difference of strength of wall panel did not give significant difference. There only small margin of differences of both specimen. Meanwhile, for deflection the data recorded by Linear Variable Differential Transformer (LVDT) are inconsistent. This is because the concrete wall panel were experience the compression and tension during the test conducted.
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机译:进行这项研究是为了确定轻质混凝土(LWC)的抗压强度,该轻质混凝土包含膨胀聚苯乙烯(EPS)或最知名的聚苯乙烯珠粒,被指定用于承重墙应用。为了生产轻质碳化钨,EPS珠被选作轻质骨料,因为它在其特性(例如低密度,高强度,良好的隔热和隔音)方面具有优势。除此之外,它也适用于像剪力墙这样易受冲击的结构。在这项研究中,生产了十二(12)个尺寸为100 x 600 x 600 mm的无筋混凝土墙板。聚苯乙烯珠的尺寸为直径3.0mm。本研究中使用了四(4)个混凝土配合比,分别为(1:3:0),(1:2.5:0.5),(1:2:1)和(1:1.5:1.5)。所有样品均在马来西亚彭亨大学重型结构实验室测试。为了获得最终的轴向和挠度参数,使用Magness Frame机器对轻质混凝土墙板进行了测试。混凝土墙板在固定末端条件下安装。然后使用英国标准(BS98110-97)确定墙板的极限轴向载荷。根据所进行的测试,轻质混凝土立方体对RATIO 2的抗压强度最高,为20.645 N / mm2,而最低的为RATIO 3,强度为16.545 N / mm2。 RATIO 1的第28天为194.79 kN,最低RATIO 3的为136.25 kN。因此,当将比率1与控制进行比较时,墙板的强度差异不会产生显着差异。两个样品的差异很小。同时,由于偏转,线性可变差动变压器(LVDT)记录的数据不一致。这是因为混凝土墙板在进行测试时会受到压缩和拉伸。
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