BEHAVIOR OF COMPOSITE FERROCEMENT REINFORCED CONCRETE BEAMS

Journal of Advanced Sciences and Engineering Technologies Pub Date : 2021-12-26 DOI:10.32441/jaset.02.01.07

Aziz I. Aziz I. Abdulla, Othman Majeed Abdullah

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Abstract

The Ferrocement is a type of thin reinforcement concrete made of cement- sand mortar mixture with closely spaced of relatively small diameter wire meshes with or without bars of small diameter called skeletal bar. The purpose of the current study is to identify the behavior of the composite fibrocement and reinforced concrete beams. The main variables of the current study are the number of layers of wire mesh, the casting time for the second layer ( Normal concrete) , and the effect of the presence or absence of the skeletal bars. The current study included the casting of two reference beams with a different reinforcing ratio (2φ8 mm), and (3φ8 mm). The study also included the casting of eight composite beams of fibrocement and reinforced concrete. The results show that the use of fibrocement layer, with (4,6,8) layers of wire meshes, skeletal bar, and the first casting period (1.5 hr) leads to increase the ultimate load by (17.142%, 21.42%,and 22.85%) also the cracking load increased by (31.57%, 47.36%,and 68.42%). The results show that the use of fibrocement layer, with (4,6,8) layers of wire meshes, skeletal bar , and the second casting period ( 24 hr) leads to increase the ultimate load by (32.85%, 40%,and 42.85%) also the cracking load increased by (36.84%, 84.21%,and 89.47%).When using the fibrocement layer containing on the skeletal bar the maximum load increased (6.96%, 17.64%) for the first and second casting, respectively, also for cracking load, it increased by (6.67%,16.12%) respectively, this is due to that the skeletal bar leads to increase reinforcement area and increase restriction in compared with ferrocement layer without the skeletal bar. © 2019 JASET, International Scholars and Researchers Association

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复合钢筋混凝土梁的性能

钢筋混凝土是一种由水泥-砂砂浆混合物制成的薄钢筋混凝土，直径较小的钢丝网紧密相连，有或没有直径较小的钢筋，称为骨架钢筋。本研究的目的是确定复合纤维和钢筋混凝土梁的性能。目前研究的主要变量是钢丝网的层数，第二层(普通混凝土)的浇筑时间，以及有无骨筋的影响。目前的研究包括浇铸两根不同配筋率的参考梁(2φ8 mm)和(3φ8 mm)。该研究还包括八个纤维混凝土和钢筋混凝土组合梁的浇筑。结果表明:采用纤维化层、(4、6、8)层钢丝网、骨架杆和第一浇筑期(1.5 h)分别提高了极限荷载(17.142%、21.42%和22.85%)和开裂荷载(31.57%、47.36%和68.42%);结果表明:采用纤维化层、(4、6、8)层钢丝网、骨架杆和第二次浇筑(24 h)可使极限荷载分别提高32.85%、40%和42.85%，开裂荷载分别提高36.84%、84.21%和89.47%;在骨架筋上添加纤维层时，第一次浇筑和第二次浇筑的最大荷载分别增加了6.96%、17.64%，在开裂荷载下，最大荷载分别增加了6.67%、16.12%，这是由于骨架筋比未添加骨架筋的铁层增加了配筋面积，增加了约束。©2019 JASET，国际学者和研究人员协会

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Journal of Advanced Sciences and Engineering Technologies

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