%0 Journal Article
%T UHPC后浇节点装配式RC梁&#8211;柱子结构的抗倒塌性能试验研究<br>Study on Collapse Tests of Precast RC Beam-Column Sub-Assemblages with UHPC Post-Cast Joints
%A 崔雅豪
%A 刘涛
%A 张龙
%J Hans Journal of Civil Engineering
%P 454-464
%@ 2326-3466
%D 2025
%I Hans Publishing
%R 10.12677/hjce.2025.143051
%X 本文开展了超高性能混凝土材料(UHPC)后浇节点装配式钢筋混凝土(RC)梁&#8211;柱子结构的静力Pushdown试验以研究其抗倒塌性能。梁&#8211;柱子结构试件共设计制作了4个&#65292;几何尺寸相同&#65292;配筋形式相近&#65292;主要变量为梁纵筋在节点区的直线锚固长度。全现浇试件S0的梁底部纵筋在梁柱节点区的直线锚固长度<i>l</i><sub>a</sub>为29 <i>d</i> (其中<i>d</i>为钢筋直径)&#65292;而UHPC后浇试件PUS1、PUS2和PUS3的<i>l</i><sub>a</sub>分别为通长连续、20 <i>d</i>和10 <i>d</i>。试验结果表明&#65306;UHPC后浇节点试件与全现浇试件的破坏形态和裂缝发展过程相似&#65292;只是UHPC后浇试件开裂较早并集中在节点区附近&#65307;UHPC后浇试件的开裂荷载相较于整浇试件有所降低&#65292;而后浇试件的压拱机制承载力、悬链线机制承载力及其位移变形能力与全现浇试件的基本相当&#65292;甚至承载力略有提升&#65307;UHPC后浇试件减小中柱节点区梁纵筋的锚固长度&#65292;会降低试件的开裂荷载、压拱机制承载力及其位移&#65292;但是会提高悬链线机制的发展程度&#65292;增加悬链线机制承载力及其位移&#65307;当梁受拉纵筋在UHPC后浇区的锚固长度为20 <i>d</i>时&#65292;UHPC后浇试件的压拱机制和悬链线机制均能有较好的发挥。<br>In this paper, static Pushdown tests of ultra-high performance concrete material (UHPC) post-cast-joint assembled reinforced concrete (RC) beam-column sub-assemblages were carried out to investigate the collapse behavior. A total of four specimens of beam-column sub-assemblages were designed and fabricated with the same geometry and similar reinforcements, with the main variable being the linear anchorage length of the beam longitudinal rebars in the joint zone. The linear anchorage length <i>l</i><sub>a</sub> of beam bottom longitudinal rebars in the joint zone for monolithic specimen S0 was 29 <i>d</i> (where <i>d</i> is the rebar diameter), while that of UHPC post-cast specimens PUS1, PUS2 and PUS3 was through-length continuous, 20 <i>d</i> and 10 <i>d</i>, respectively. The test results showed that the damage pattern and crack development process of UHPC post-cast specimens and monolithic specimen were similar, except that the UHPC post-cast specimens cracked earlier and the cracks tended to localize near the joint. The cracking load of the UHPC post-cast specimens was lower than that of monolithic specimen, while the load-carrying capacity of compression arch mechanism and catenary mechanism as well as the corresponding deformation capacity of the post-cast specimens were basically comparable with that of the monolithic specimen. Reducing the anchorage length of beam longitudinal rebars in the joint of the UHPC post-cast specimen decreased the cracking load, load carrying capacity of compression arch mechanism as well as the displacement, but would improve the development degree of the catenary mechanism and increase its load-carrying capacity and displacement. When the anchorage length of the beam longitudinal rebars in the UHPC post-cast joint was 20 <i>d</i>, UHPC post-cast specimens could achieve comparable performance of both compression arch mechanism and catenary mechanism with the
%K 装配式结构&#65292
%K Pushdown倒塌试验&#65292
%K UHPC&#65292
%K 锚固长度&#65292
%K 抗倒塌性<br>Prefabricated Structure
%K Pushdown Collapse Test
%K UHPC
%K Anchorage Length
%K Collapse Behavior
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=110266