Advances in Constructional Engineering
Advances in Constructional Engineering. 2025; 5: (5) ; 10.12208/j.ace.2025000201 .
总浏览量: 79
琼中营根金鎏建筑工程管理服务中心 海南琼中
*通讯作者: 王经刘,单位:琼中营根金鎏建筑工程管理服务中心 海南琼中;
海南强风对在建高层建筑结构安全威胁显著,科学抗风设计是保障工程安全的核心。本文针对海南在建高层建筑抗风需求,分析强风下结构受力特点与风险,从结构选型优化、抗风构件设计、风荷载监测与调控等方面,探讨关键技术应用路径。系统性整合抗风技术,可有效提升在建建筑抗风能力,为海南高层建筑工程抗风设计提供实践参考,助力工程建设质量与安全水平提升。
Strong winds in Hainan pose significant threats to the structural safety of high-rise buildings under construction. Scientific wind-resistant design is therefore essential to ensure engineering safety. This paper analyzes the structural stress characteristics and risks of buildings subjected to strong winds in Hainan, focusing on key aspects such as structural type optimization, wind-resistant component design, and wind load monitoring and control. By systematically integrating wind-resistant technologies, the wind resistance capacity of buildings under construction can be effectively enhanced. The study provides practical reference for the wind-resistant design of high-rise building projects in Hainan, contributing to improved construction quality and safety.
[1] 梁启军,王志惠,刘高飞,等.变电站均压环抗风稳定性及优化设计研究[J/OL].结构工程师,1-8[2025-10-21].
[2] 沈文兵,郑志涛,李闯,等.新型金属屋面加固组件设计与抗风性能数值分析[J].安装,2025,(09):106-108.
[3] 徐大为,张志敏,潘峰.周边建筑对在建超高层塔楼的风场干扰效应研究[J].建筑施工,2024,46(11):1748-1753.
[4] 王海龙.高层建筑结构体系中抗震性能研究与优化[J].城市建设理论研究(电子版),2024,(15):190-192.
[5] 郑子超.高层建筑结构抗震设计与优化方法研究[J].城市建设理论研究(电子版),2024,(13):71-73.
[6] 汪钲东,汪刚,郭振志,等.施工临时设施抗风设计研究综述[J].建筑结构,2023,53(S2):2198-2202.
[7] 余青原.高层建筑火灾扑救想定作业[M].化学工业出版社:202309:258.
[8] 詹长鹏.在建高层建筑混凝土剪力墙置换加固设计与施工分析[J].江西建材,2023,(05):296-298.