摘要
The axial bearing capacity of prefabricated composite walls composed of inner and outer concrete wythes,expandable polystyrene(EPS)boards and steel sleeve connectors is investigated.An experimental study on the axial bearing capacity of four prefabricated composite walls after fire treatment is carried out.Two of the prefabricated composite walls are normal-temperature specimens,and the others are treated with fire.The damage modes and crack development are observed,and the axial bearing capacity,lateral deformation of the specimens,and the concrete and reinforcing bar strain are tested.The results show that the ultimate bearing capacity of specimens after a fire is less than that of normal-temperature specimens;when the insulation board thicknesses are 40 mm and 60 mm,the decrease amplitudes are 20.8%and 16.8%,respectively.The maximum lateral deformation of specimens after a fire is greater than that of normal-temperature specimens,and under the same level of load,the lateral deformation increases as the insulation board thickness increases.Moreover,the strain values of the concrete and reinforcing bars of specimens after a fire are greater than those of normal-temperature specimens,and the strain values increase as the thickness of insulation board increases.
为了研究内、外页钢筋混凝土墙板、EPS板及钢套筒连接件组成的预制复合保温墙体火灾后的轴压承载能力,对4个预制复合保温墙体试件(2个常温试件及2个火后试件)进行了火灾后轴压承载力试验.观察了其破坏形态、裂缝开展情况;测试了其轴压承载力、墙体面外位移、混凝土及钢筋应变.试验结果表明:火后试件的抗压极限承载力均低于常温试件的极限承载力;保温层厚度40 mm,降幅为20.8%,厚度为60mm,降幅为16.8%;火后墙体的最大平面外位移值明显比常温墙体大,在相同荷载作用下,保温层厚度越大,墙体的平面外位移越大;火后墙体的混凝土、钢筋应变总是比常温墙体的大,保温厚度较大墙体的混凝土、钢筋应变均大于保温层厚度较小墙体的应变.
基金
The National Key Research and Development Program of China(No.2016YFC0701703)
the Natural Science Foundation of Higher Education Institutions of Jiangsu Province(No.2016TM045J)
the Scientific Innovation Research of Graduate Students in Jiangsu Province(No.KYLX_0151)
