首页|期刊导航|复合材料科学与工程|GFRP-竹胶板管复合约束含砖骨料再生混凝土叠合柱抗压性能试验

GFRP-竹胶板管复合约束含砖骨料再生混凝土叠合柱抗压性能试验

赵卫锋文嘉鑫周靖陈凯亮补国斌

复合材料科学与工程Issue(3)：10-20,64,12.

复合材料科学与工程Issue(3)：10-20,64,12.DOI:10.19936/j.cnki.2096-8000.20260328.002

GFRP-竹胶板管复合约束含砖骨料再生混凝土叠合柱抗压性能试验

Experiment on compressive behavior of GFRP-plybamboo panel tube dual confined recycled brick aggregate concrete laminated column

赵卫锋 ¹文嘉鑫 ²周靖 ³陈凯亮 ⁴补国斌²

作者信息

1. 广东建设职业技术学院,广州 510440
2. 湖南工业大学土木工程学院,株洲 412007
3. 华南理工大学亚热带建筑与城市科学全国重点实验室,广州 510640
4. 中国轻工业长沙工程有限公司化工材料食品事业部,长沙 410114
折叠

摘要

Abstract

In order to explore new applications for the regeneration of waste clay bricks and to expand the use of bamboo plywood in structural engineering,this paper proposes a novel type of GFRP-plybamboo panel tube dual confined recycled brick aggregate concrete ecological laminated column(abbreviated as GPR laminated column).Compression failure tests were conducted on 18 GPR laminated column specimens to investigate the influence of brick aggregate replacement ratio in recycled brick aggregate concrete(RBAC),GFRP tube thickness,sectional bamboo content,spacing ratio of pull rods,load eccentricity,and slenderness ratio on the compressive bearing ca-pacity and deformation of specimens.The test results indicate that the compressive failure mode of GPR laminated column specimens is mainly characterized by cracks and local fractures along the winding direction of GFRP tube fi-bers,as well as crushing of the outer RBAC.The location of GFRP fiber damage shifts upward with the increase of GFRP tube thickness.When subjected to eccentric loading,the failure mode of the GPR composite column involves tension-side GFRP fiber fracture,and slenderness ratio exceeding 32,compressive-side GFRP fiber fracture is ob-served.The compressive load-bearing capacity decreases with the increase of brick aggregate replacement rate,con-strain tensile rod spacing ratio,load eccentricity,and slenderness ratio.Additionally,the load-bearing capacity de-creases with an increase in GFRP tube thickness,while the section bamboo content has no significant effect on the ultimate load-bearing capacity of the specimens.Finally,a calculation model for the ultimate compression bearing capacity of GPR laminated columns was established based on experimental results,which is expected to provide ref-erence for the engineering application of the GPR laminated columns.

关键词

玻璃纤维增强复合材料/竹胶板/含砖骨料再生混凝土/抗压试验/极限承载力

Key words

GFRP/plybamboo panel(PBP)/recycled brick aggregate concrete(RBAC)/compressive test/ultimate load-bearing capacity

分类

通用工业技术

引用本文复制引用

赵卫锋,文嘉鑫,周靖,陈凯亮,补国斌..GFRP-竹胶板管复合约束含砖骨料再生混凝土叠合柱抗压性能试验[J].复合材料科学与工程,2026,(3):10-20,64,12.

基金项目

湖南省自然科学基金项目(2023JJ30213) （2023JJ30213）

湖南省教育厅科学研究优秀青年项目(23B0556) （23B0556）

广东建设职业技术学院高层次人才项目(GCC2022-03) （GCC2022-03）

广东建设职业技术学院校级项目(KY2022-89) （KY2022-89）

复合材料科学与工程

ISSN：2096-8000

访问量0

下载量0

段落导航