期刊目次

加入编委

期刊订阅

添加您的邮件地址以接收即将发行期刊数据:

Open Access Article

Advances in Constructional Engineering. 2022; 2: (3) ; 75-80 ; DOI: 10.12208/j.ace.20220080.

Development demand and prospect of domestic steel-timber composite structure
国内钢木结构体系发展需求与前景

作者: 朱娅楠 *

济南托马斯实验学校 山东济南

*通讯作者: 朱娅楠,单位:济南托马斯实验学校 山东济南;

发布时间: 2022-10-11 总浏览量: 441

摘要

在发展可持续的总体目标中,建筑物的能源性能在过去十年中受到了广泛关注。控制建筑物的碳排放在结构设计在变得更加重要,由于承重结构在建筑物能效消耗与排放中占很大比例,因此降低其对环境的影响变得尤为重要的。然而就环境影响而言,最好的建筑材料不一定是最便宜的。在这种情况下,由两种(或多种)不同材料组成的混合钢/木结构可能会提供一种解决方案。在本文中,我们回顾了混合钢/木结构结构的现状、应用实例。结果表明,中国混合钢/木结构发展需求强劲,但现有政策、规范尚处在发展早期。

关键词: 钢木结构;低碳环保;建筑业;研究现状;发展趋势

Abstract

The energy performance of buildings has attracted much attention in the past decade under the trend of focusing on the overall goal of sustainable development. Controlling the carbon emissions of buildings in structural design is becoming more important, and since load-bearing structures account for a large proportion of energy efficiency consumption and emissions in buildings, reducing their environmental impact has become particularly critical. In terms of environmental impact, however, the best building material is not always the most affordable. In this case, hybrid steel/wood structures consisting of two (or more) different materials can provide a favorable possibility solution. In this paper, we have reviewed the current status and application examples of hybrid steel/wood structures. The results indicated that there was a great demand for the development of hybrid steel/wood structures in China, but the existing relevant policies and codes were still in the early stages of development.

Key words: steel/wood structures; low carbon and environmental protection; construction industry; current research status; development trend

参考文献 References

[1] Building sector emissions hit record high, but low-carbon pandemic recovery can help transform sector – UN report. (2020, December 16). UN Environment Programme. https://www.unep.org/news-and-stories/press-release/building-sector-emissions-hit-record-high-low-carbon-pandemic

[2] 中国建筑材料工业碳排放报告(2020). 中国建材(04),59-62.

[3] 努力推动实现碳达峰碳中和目标. (2021, November 11). 中华人民共和国国家发展和改革委员会. https://www.ndrc.gov.cn/wsdwhfz/202111/t20211111_1303691_ext.html

[4] 绿色建筑创建行动方案. (2020). 中华人民共和国住房和城乡建设部. https://www.mohurd.gov.cn/gongkai/fdzdgknr/tzgg/202007/20200724_246492.html

[5] 李闻影,潘福婷 & 云浩.(2014).钢木组合结构在土木工程中的应用与发展. 安徽建筑(01),128-129+143.

[6] 娄万里 & 任海青.(2015).木结构建筑的特征及在我国的发展前景.木材工业(05),20-23.

[7] 刘伟庆 & 杨会峰.(2019).现代木结构研究进展. 建筑结构学报(02),16-43.

[8] 朱建伟.(2021).胶合木结构建筑的发展现状及前景. 现代农业研究(08),137-138.

[9] 蔡沁文,陆轶辰 & 张维宸.(2015).钢与木:结构设计. 建筑创作(05),80-87.

[10] 徐伟良,蒋菡 & 赵萍.(2002).多高层住宅的钢结构体系及其工程应用.《工程力学》期刊社.(eds.)第十一届全国结构工程学术会议论文集第Ⅰ卷(pp.623-626).《工程力学》.

[11] 周绪红 & 王宇航.(2019).我国钢结构住宅产业化发展的现状、问题与对策. 土木工程学报(01),1-7.

[12] Aspila, A., Heinisuo, M., Mela, K., Malaska, M., & Pajunen, S. (2022). Elastic design of steel-timber composite beams. Wood Material Science & Engineering, 1-10.

[13] Atlassian HQ | SHoP. (2022). SHoP. Retrieved 2022, from https://www.shoparc.com/projects/atlassian-hq/

[14] 廖静,郝勇,王立军,贾吉龙 & 李家安.(2020).钢木组合结构研究现状. 河南科技(14),85-87.

[15] 陈路伟 & 曹辉.(2018).大跨度钢、木混合结构屋盖施工工艺研究. 建筑施工(02),195-197.

[16] 杨学兵.(2013).《木结构设计规范》GB50005修订. 建设科技(17),44-46.

[17] 廖静,郝勇,王立军,贾吉龙 & 李家安.(2020).钢木组合结构研究现状. 河南科技(14),85-87.

[18] 王小盾,陈志华,白晶晶,李珊珊 & 安琦.(2011).钢木组合结构的研究现状与发展前景.《钢结构》编辑部(Steel Construction Editorial Office).(eds.)'2011全国钢结构学术年会论文集(pp.678-681).工业建筑杂志社(Industrial Construction Magazine Agency).

引用本文

朱娅楠, 国内钢木结构体系发展需求与前景[J]. 建筑工程进展, 2022; 2: (3) : 75-80.