长期荷载作用下钢竹组合柱的力学性能

doi:103969/j.issn.1007 9629202104018

首页 > 过刊浏览>2021年第24卷第4期 >800-810. DOI:103969/j.issn.1007 9629202104018

长期荷载作用下钢竹组合柱的力学性能
DOI:
                        103969/j.issn.1007 9629202104018
                    
CSTR:
                        
                    
作者:
                        张家亮张家亮
宁波大学科学技术学院,浙江宁波315300
在期刊界中查找
在百度中查找
在本站中查找
童科挺童科挺
宁波大学土木与环境工程学院,浙江宁波315211
在期刊界中查找
在百度中查找
在本站中查找
陈伟陈伟
宁波大学土木与环境工程学院,浙江宁波315211
在期刊界中查找
在百度中查找
在本站中查找
王建民王建民
宁波大学土木与环境工程学院,浙江宁波315211
在期刊界中查找
在百度中查找
在本站中查找
李玉顺李玉顺
青岛农业大学建筑工程学院,山东青岛266109
在期刊界中查找
在百度中查找
在本站中查找

                    
作者单位:
作者简介:
通讯作者:
中图分类号:
基金项目:国家自然科学基金资助项目(51978345,51678310);浙江省自然科学基金资助项目(LQ19E080007);宁波市科技计划项目(202002N3090)

Mechanical Properties of Steel Bamboo Composite Columns under Long Term Loading

Author:

ZHANG Jialiang
ZHANG Jialiang
College of Science and Technology, Ningbo University, Ningbo 315300, China
在期刊界中查找
在百度中查找
在本站中查找
TONG Keting
TONG Keting
School of Civil and Environmental Engineering, Ningbo University, Ningbo 315211, China
在期刊界中查找
在百度中查找
在本站中查找
CHEN Wei
CHEN Wei
School of Civil and Environmental Engineering, Ningbo University, Ningbo 315211, China
在期刊界中查找
在百度中查找
在本站中查找
WANG Jianmin
WANG Jianmin
School of Civil and Environmental Engineering, Ningbo University, Ningbo 315211, China
在期刊界中查找
在百度中查找
在本站中查找
LI Yushun
LI Yushun
College of Civil Engineering and Architecture, Qingdao Agricultural University, Qingdao 266109, China
在期刊界中查找
在百度中查找
在本站中查找

Affiliation:

Fund Project:

摘要

图/表

访问统计

参考文献 [34]

相似文献 [20]

引证文献

资源附件

文章评论

摘要:

为研究钢竹组合工字形柱（以下简称组合柱）在长期荷载作用下的力学性能,设计制作了18个组合柱试件,依次对其实施一次加载试验、长期加载试验与二次加载试验,观测并分析试件的蠕变过程,研究组合柱承载力与形变的影响因素及其变化规律.结果表明：组合柱有良好的整体性与承载能力,加载至60d时蠕变变形已达蠕变总量的90%,Burger模型可以准确地描述组合柱的蠕变过程;长期荷载作用后,组合柱的延性与极限应变明显提高,极限承载力受长期荷载作用影响较小,承载力与延性随着含钢率的增加显著提升.

关键词:钢竹组合结构; 工字形柱; 长期荷载; 蠕变变形; 承载力

Abstract:

To investigate the mechanical properties of steel bamboo I section composite column under long term loading, 18 specimens were designed and manufactured. Static loading test, long term loading test and secondary static loading test were carried out successively, in which the creep process were measured and analyzed, influencing factors of bearing capacity and deformation and their variation rule were studied. Results show that the steel bamboo I section composite column has high integrity and bearing capacity, the creep deformation reached 90% of the total creep when loaded for 60days, the Burger model can accurately describe the creep process of the composite column. The ductility and ultimate strain are significantly increased after long term loading, while the ultimate bearing capacity is not greatly affected,the bearing capacity and ductility are improved with the increasement of steel ratio.

Key words:steel bamboo composite structure; I section column; long term loading; creep deformation; bearing capacity

参考文献

[1]李玉顺,张家亮.钢竹组合构件及其结构体系研究进展[J].工业建筑,2016,46(1):1 6.

LI Yushun,ZHANG Jialiang.State of the art of steel bamboo composite components and structural system[J].Industrial Construction,2016,46(1):1 6.(in Chinese)

[2]李玉顺,沈煌莹,单炜,等.钢竹组合工字梁受剪性能试验研究[J].建筑结构学报,2011,32(7):80 86.

LI Yushun,SHEN Huangying,SHAN Wei,et al.Experimental study on shear behavior of I shaped section bamboo steel composite beams[J].Journal of Building Structures,2011,32(7):80 86.(in Chinese)

[3]李玉顺,蒋天元,单炜,等.钢竹组合梁柱边节点拟静力试验研究[J].工程力学,2013,30(4):241 248.

LI Yushun,JIANG Tianyuan,SHAN Wei,et al.Quasi static test on steel bamboo composite beam column exterior joints[J].Engineering Mechanics,2013,30(4):241 248.(in Chinese)

[4]李玉顺,张家亮,刘瑞,等.长期荷载作用后钢竹界面黏结性能分析[J].建筑结构学报,2017,38(9):110 120.

LI Yushun,ZHANG Jialiang,LIU Rui,et al.Study on bond performance of bamboo steel interface after long term loading[J].Journal of Building Structures,2017,38(9):110 120.(in Chinese)

[5]BAANT Z P.Constitutive equation of wood at variable humidity and temperature[J].Wood Science and Technology,1985,19:159 177.

[6]张晓敏,孙正军,王喜明.竹材径向压缩蠕变行为研究[J].林业机械与木工设备,2010,38(6):26 29.

ZHANG Xiaomin,SUN Zhengjun,WANG Ximing.Study on radical compression creep behavior of bamboo wood[J].Forestry Machinery & Woodworking Equipment,2010,38(6):26 29.(in Chinese)

[7]闫薇,崔海星,朱一辛.竹材的拉伸短期蠕变行为及模拟[J].林业科技开发,2013,27(3):46 49.

YAN Wei,CUI Haixing,ZHU Yixin.Analysis and simulation of moso bamboo short term tensile creep behavior[J].China Forestry Science and Technology,2013,27(3):46 49.(in Chinese)

[8]PIERCE C B,DINWOODIE J M.Creep in chipboard Part 1:Fitting 3 and 4 element response curves to creep data[J].Journal of Material Science,1977,12:1955 1960.

[9]PIERCE C B,DINWOODIE J M,PAXTON B H.Creep in chipboard Part 2:The use of fitted response curves for comparative and predictive purposes[J].Wood Science and Technology,1979,13:265 282.

[10]PIERCE C B,DINWOODIE J M,PAXTON B H.Creep in chipboard Part 5:An improved model for prediction of creep deflection[J].Wood Science and Technology,1985,19:83 91.

[11]DINWOODIE J M,PAXTON B H,PIERCE C B.Creep in chipboard Part 3:Initial assessment of the influence of moisture content and level of stressing on rate of creep and time to failure[J].Wood Science and Technology,1981,15:125 144.

[12]DINWOODIE J M,PIERCE C B,PAXTON B H.Creep in chipboard Part 4:The influence of temperature and moisture content on the creep behaviour of a range of boards at a single stress level[J].Wood Science and Technology,1984,18:205 224.

[13]陈士英,龙玲,张宜生.竹材刨花板蠕变性能的研究[J].木材工业,1999,13(5):3 6.

CHEN Shiying,LONG Ling,ZHANG Yisheng.Study on creep performance of bamboo particleboard[J].China Wood Industry,1999,13(5):3 6.(in Chinese)

[14]喻云水,杨宝.竹胶合板模板蠕变特性研究[J].林业科技,2008,33(2):47 50.

YU Yunshui,YANG Bao.Study on creep performance of plybamboo form[J].Forestry Science & Technology,2008,33(2):47 50.(in Chinese)

[15]WOOD L W.Relation of strength of wood to duration of load[R].Madison:University of Wisconsin,1960.

[16]CLOUSER W S.Creep of small wood beams under constant bending load[R].Madison:University of Wisconsin,1959.

[17]YAZDANI N,JOHNSON E,DUWADI S.Creep effect in structural composite lumber for bridge applications[J].Journal of Bridge Engineering,2004,9(1):87 94.

[18]NAKAI T,GROSSMAN P.Deflection of wood under intermittent loading Part 1:Fortnightly cycles[J].Wood Science and Technology,1983,17:55 67.

[19]肖岩,李磊,杨瑞珍,等.胶合竹梁桥蠕变及承载力试验研究[J].建筑结构,2013,43(18):86 91.

XIAO Yan,LI Lei,YANG Ruizhen,et al.Experimental study on creep and loading property of laminated bamboo bridge[J].Building Structure,2013,43(18):86 91.(in Chinese)

[20]董春雷,张宏健.竹木复合工字梁静曲蠕变性能评价[J].西南林业大学学报,2014,34(5):99 102.

DONG Chunlei,ZHANG Hongjian.Evaluation of the static bending creep of bamboo wood composited I beam[J].Journal of Southwest Forestry University,2014,34(5):99 102.(in Chinese)

[21]王逢瑚.木质材料流变学[M].哈尔滨:东北林业大学出版社,2005:5 7.

WANG Fenghu.The rheology of wood materials[M].Harbin:Northeast Forestry University Press,2005:5 7.(in Chinese)

[22]韩林海,李威,王文达,等.现代组合结构和混合结构：试验、理论与方法[M].2版.北京:科学出版社,2017:98 103.

HAN Linhan,LI Wei,WANG Wenda,et al.Advanced composite and mixed structures:Testing,theory and design approach[M].2nd ed.Beijing:Science Press,2017:98 103.(in Chinese)

引用本文

张家亮,童科挺,陈伟,王建民,李玉顺.长期荷载作用下钢竹组合柱的力学性能[J].建筑材料学报,2021,24(4):800-810

复制

文章指标

点击次数:322
下载次数: 88
HTML阅读次数: 0
引用次数: 0

历史

收稿日期:2020-04-23
最后修改日期:2020-06-28
录用日期:
在线发布日期: 2021-09-06
出版日期:

首页

期刊介绍

编委会

征稿启事

期刊订阅

相关下载

Email alert

联系我们

引用本文

分享

文章指标

历史

文章二维码

引用本文

分享

微信扫一扫：分享

文章指标

历史

文章二维码