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《建筑科学与工程学报》[ISSN:1673-2049/CN:61-1442/TU]

Issue:

2022年02期

Page:

52-60

Research Field:

结构工程

Publishing date:

Info

Title:

Experimental Study on Flexural Behavior of Prestressed Recycled Concrete Composite Beams

Author(s):

CHENG Dong-hui;  WANG Kai-wen;  SONG Chao

(School of Civil Engineering, Northeast Forestry University, Harbin 150040, Heilongjiang, China)

Keywords:

prestressed composite beam;  recycled concrete;  static test;  flexural behavior;  ultimate bearing capacity

PACS:

TU378.2

DOI:

10.19815/j.jace.2021.03096

Abstract:

In order to study the flexural behavior of unbonded prestressed recycled concrete composite beam members, the position of recycled concrete in the composite beam, the height of the composite layer, and the reinforcement ratio of the members were taken as parameters, one prestressed ordinary concrete cast-in-place beam, one prestressed recycled concrete cast-in-place beam and six prestressed recycled concrete composite beam members were subjected to bending loading tests. The stress process and failure modes of the test beam members were analyzed, and the effects of various parameters on the ultimate bearing capacity of test beam members were discussed. Based on the experimental data, the bearing capacity of the unbonded prestressed recycled concrete composite beam under the ultimate bearing capacity state was verified. The results show that when recycled concrete is applied to the bending members of prestressed composite beam members, the strain change law along the height of the mid-span section is consistent with the assumption of the plane section, and there is a good interaction between ordinary concrete and recycled concrete, so they can cooperate to force and deformation. The stress increment curve of the unbonded prestressed steel strand is a three-fold line. When the recycled concrete is located in the precast layer, under the same condition of reinforcement, the increasing of the precast layer height will delay the tensile yield of the ordinary longitudinal stressed steel bars in the beam. With the same precast layer height, improving the strength of the longitudinal steel bars can effectively improve the performance of the beam. Compared with ordinary concrete beams, the number of cracks in recycled concrete beams is relatively large, and the crack extension height is relatively small when reaching the ultimate load. When the recycled concrete is located in the laminated layer, the number of cracks increases, and the crack spacing is relatively small. With the increases of precast layer height and member reinforcement ratio, the average crack spacing of test beams gradually increases.

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Common functions

Last Update: 2022-03-20