[1]戴怀玉,苏建华,刘秋雨,等.模块化集成建筑夹心剪力墙抗震性能研究[J].华南地震,2025,(04):81-88.[doi:10.13512/j.hndz.2025.04.11]
DAI Huaiyu,SU Jianhua,LIU Qiuyu,et al.Study on Seismic Performance of Sandwich Shear Walls in Modular Integrated Construction[J].,2025,(04):81-88.[doi:10.13512/j.hndz.2025.04.11]
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模块化集成建筑夹心剪力墙抗震性能研究(
)
华南地震[ISSN:1006-6977/CN:61-1281/TN]
- 卷:
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- 期数:
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2025年04期
- 页码:
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81-88
- 栏目:
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土木工程防震减灾
- 出版日期:
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2025-11-30
文章信息/Info
- Title:
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Study on Seismic Performance of Sandwich Shear Walls in Modular Integrated Construction
- 文章编号:
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1001-8662(2025)04-0081-08
- 作者:
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戴怀玉1; 2; 苏建华2; 3; 刘秋雨4; 5; 梁雄伟1; 2; 刘水华1; 陈臻颖6; 林永枫6; 方壮城4; 5; 黄襄云4; 5; 戚玉亮3; 陈浩帆3; 刘艺锋7; 李百建8
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1.广州市建工设计院有限公司,广州 510030;2.广州建筑股份有限公司,广州 51028;3.广州建筑产业研究院集团有限公司,广州 510640;4.广东省地震工程与应用技术重点实验室,广州 510006;5.工程抗震减震与结构安全教育部重点实验室,广州 510006;6.广州建筑湾区智造科技有限公司,广州 510700;7.广州建筑产业研究院集团有限公司智能建造与建筑工业化分公司,广州 510510;8.广州市建筑科学研究院集团有限公司,广州 510440
- Author(s):
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DAI Huaiyu1; 2; SU Jianhua2; 3; LIU Qiuyu4; 5; LIANG Xiongwei1; 2; LIU Shuihua1; CHEN Zhenying6; LIN Yongfeng6; FANG Zhuangcheng4; 5; HUANG Xiangyun4; 5; QI Yuliang3; CHEN Haofan3; LIU Yifeng7; LI Baijian8
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1.Guangzhou Construction Engineering Design Institute Co.,Ltd.,Guangzhou 510030,China;2.Guangzhou Construction Co., Ltd., Guangzhou 510288, China;3.Guangzhou Construction Industry Research Institute Group Co., Ltd., Guangzhou 510640, China;4.Guangdong Provincial Key Laboratory of Earthquake Engineering and Applied Technology , Guangzhou 510006, China;5.Key Laboratory of Earthquake Resistance , Earthquake Mitigation and Structural Safety , Ministry of Education , Guangzhou 510006, China;6.Guangzhou Construction Bay Area Intelligent Manufacturing Technology Co.,Ltd.,Guangzhou 510700,China;7.IntelligentConstruction and Construction Industrialization Branch of Guangzhou Construction Industry Research Institute Group Co.,Ltd.,Guangzhou 510510,China;8.Guangzhou Institute of Building Sciences Group Co.,Ltd., Guangzhou 510440, China
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- 关键词:
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模块化集成建筑; 夹心剪力墙; 低周反复荷载试验; 抗震性能
- Keywords:
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Modular integrated construction; Sandwich shear wall; Low cycle repeated load test; Seismic performance
- 分类号:
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TU375
- DOI:
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10.13512/j.hndz.2025.04.11
- 摘要:
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装配式建筑快速发展背景下,针对剪力墙连接可靠性对结构性能的影响,提出由两片“L”型预制墙板中间现浇混凝土构成的新型模块化集成建筑剪力墙。通过低周反复加载试验对比两片夹心剪力墙与现浇剪力墙的抗震性能。结果表明:试件均呈现弯剪破坏特征,夹心剪力墙沿接缝处产生裂缝,最后被分割成几部分;夹心剪力墙极限承载力(平均值1968.41kN)较现浇剪力墙(2130.95kN)低7.62%,延性系数(2.18)较现浇剪力墙(2.24)低2.75%。夹心剪力墙相较于现浇剪力墙展现出更好的耗能能力。
- Abstract:
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Under the background of rapid development of assembled buildings, a new modular integrated construction sandwich shear wall was composed of two“L”prefabricated wall panels with cast-in-place concrete in the middle is proposed to address the impact of shear wall connection reliability on structural performance. Comparison of the seismic performance of the two sandwich shear walls and cast-in-place shear wall through low cycle repeated load test showed that the specimens showed bending and shear damage characteristics, and the sandwich shear wall produces cracks along the joints, which are finally divided into several parts. The ultimate bearing capacity of the sandwich shear wall(average value of 1,968.41 kN)is lower than that of the cast-in-place shear wall(2,130.95 kN)by 7.62%,and the ductility coefficient of the sandwich shear wall(2.18)is lower than that of the cast-in-place shear wall(2.18)by 2.75%. The sandwich shear wall shows better energy dissipation capacity as compared to cast-in-place shear wall.
参考文献/References:
[1]叶嘉彬,汤序霖,何炳泉,等.模块化建筑(MiC)技术的研究综述与进展[J].广州建筑,2024,52(01):113-117.
[2]齐朋.培育“新质生产力”,推动建筑业高质量发展[J].施工企业管理,2024,40(02):42-43.
[3]马树浩.模块化建筑施工的可持续性及环境影响分析[J].建材发展导向,2024,22(17):126-129.
[4] He X H C,Chan T M,Chung K F. Effect of inter-module connections on progressive collapse behaviour of MiC structures[J]. Journal of Constructional Steel Research,2021 (185):106823
[5] Wang Z,Pan W,Zhang Z. High-rise modular buildings with innovative precast concrete shear walls as a lateral force resisting system[J]. Structures,2020(26):39-53.
[6]冉明明,寇广贇,熊峰,等.模块化混凝土建筑研究进展[J].施工技术(中英文),2024,53(20):16-27.
[7]艾鑫.装配式悬吊结构办公建筑可拆解再利用设计研究[D].北京:北方工业大学,2024.
[8]孟辉,周彪.国内混凝土结构高层住宅模块化建筑发展研究[J].广州建筑,2024,52(02):120-122.
[9]张婷婷.模块化装配式钢结构建筑施工技术应用[J].大众标准化,2025,44(11):140-142.
[10] Lawson R M,Richards J. Modular design for high-rise build‐ings[J]. Procedings of The Institution of Civil Engineers-Strucures and Buildings,2010,163(3):151-164.
[11] Annan C D,Youssef M,El Naggar M H. Assessment of Mod‐ular Steel Buildings[J]. Joumal of Earthquake Engineering;Seismic Vulnerability,2009,13(8):1065-1088.
[12] Hong S G,Cho B H,Chung K S,et al. Behavior of framed modular building system with double skin steel panels[J]. Journal of Constructional Steel Research,2011,67(6):936-946.
[13]刘倩,杨淑娟,郁有升,等.模块化装配式建筑发展现状与未来展望[J].青岛理工大学学报,2021,42(05):35-40+48.
[14]中华人民共和国住房和城乡建设部.建筑抗震设计规范:GB 50011-2010 [S]. 北京:中国建筑工业出版社, 2016.
[15]全国钢标准化技术委员会.金属材料拉伸试验第1部分(室温试验方法):GB/T 228.1-2021 [S].北京:中国标准出版社,2021.
[16]中华人民共和国建设部.普通混凝土力学性能试验方法标准:GB/T50081-2002[S].北京:中国建筑工业出版社, 2003.
[17]中华人民共和国住房和城乡建设部.建筑抗震试验规程:JGJ/T 101-2015[S].北京:中国建筑工业出版社,2015.
[18]骈超,钱江,Edmond V.Muho,等.混凝土框架结构整体与局部延性相关性研究[J].华中科技大学学报(自然科学版),2018,46(07):1-6.
[19]冯鹏,强翰霖,叶列平.材料、构件、结构的“屈服点”定义与讨论[J].工程力学,2017,34(03):36-46.
[20]钟铭.钢筋混凝土剪弯构件的低周疲劳累积损伤性能研究[J].公路交通科技,2016,33(04):80-87.
[21]唐际宇.双波纹钢板混凝土组合剪力墙抗震性能及设计方法研究[D].南宁:广西大学,2022.
备注/Memo
- 备注/Memo:
-
收稿日期:2025-07-17
基金项目:广州市建筑集团有限公司科技计划项目(2022-KJ011,2024-KJ081,2019-KJ021);广州市国资委科技创新创业项目《新型建筑工业化全产业链关键技术攻关与创新应用项目》联合资助。
作者简介:戴怀玉(1986-),女,高级工程师,研究方向为模块化建筑技术体系。E-mail:314503947@qq.com
通信作者:方壮城(1994-),男,副教授,研究方向为装配式结构抗震性能提升及设计。E-mail:fangzc@gzhu.
更新日期/Last Update:
2025-11-30