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机构地区:[1]扬州大学建筑科学与工程学院,江苏扬州225127
出 处:《苏州科技大学学报(工程技术版)》2017年第A01期166-169,共4页Journal of Suzhou University of Science and Technology(Engineering and Technology Edition)
基 金:国家自然科学基金资助项目(51678514,51308490);江苏省六大人才高峰项目(JZ-038,2016);江苏省自然科学基金(BK20130450);扬州大学大学生学术科技创新基金(X20170491)
摘 要:通过对3根碳纤维布加固FRP筋 ECC-混凝土复合梁和1根未加固的复合梁进行静力受弯性能试验,分析 了不同碳纤维布锚固层数对构件承载能力、破坏形态、裂缝及挠度的影响.研究表明,使用碳纤维布加固复合梁,可 控制梁的变形,提髙梁的抗弯承载能力.增加碳纤维布锚固层数,梁的开裂荷载和极限荷载会有-定程度的提髙,但 提高的幅度随层数的增加而逐渐减小.随碳纤维布锚固层数的增大,复合梁挠度和FRP筋应变逐渐减小.碳纤维布 锚固层数越大,裂缝出现越晚,裂缝发展越慢,并且裂缝宽度相对越小,说明碳纤维布可改善复合梁的抗裂性能.Static flexural experiment of three FRP bar reinforced ECC-concrete composite beams strengthened with carbon fiber sheet (CFS) and one unstrengthen composite beam were made. The influence of anchorage lay-ers on the bearing capacity, failure mode, crack and deflection of composite beams were analyzed. The results show that the deflection of the composite beam was decreases after it was strengthened with carbon fiber sheet and its flexural bearing capacity was increased. Although the cracking load and ultimate load were improved by increasing the number of anchorage layers, the increased rate decreases gradually with the increasing of anchor-age layers. The deflection of the composite beams and the strain of the FRP bars decreases with increasing the number of anchorage layers. With increasing the strengthen layers of carbon fiber sheet, the crack appears later, develops slower and its width is smaller than that of strengthened specimen. Crack resistance of composite beam was improved after the composite beam was strengthened with CFS.
分 类 号:TU746.3[建筑科学—建筑技术科学]
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