Collaborative Research: Seismic Resiliency of Repetitively Framed Mid-Rise Cold-Formed Steel Buildings

合作研究：重复框架中层冷弯型钢建筑的抗震性能

• 批准号: 1663569
• 负责人: Tara Hutchinson
• 金额: $ 59万
• 依托单位: University of California-San Diego
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-05-01 至 2025-03-31
• 项目状态: 未结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1663569&HistoricalAwards=false
• 关键词: Collaborative; Research; Seismic; Resiliency; Repetitively

The need for low cost, multi-hazard resilient buildings constructed of sustainable, low-carbon footprint materials is urgent. Mid-rise buildings framed from thin-walled, cold-formed steel (CFS) have the ability to support this urgent need. The potential benefits of CFS-framed structures include low installation and maintenance costs, high durability and ductility, lightweight framing, and a manufacturing process using recycled material. In addition, consistency in material behavior, high strength-to-weight ratio and stiffness, and use of a non-combustibile material are added benefits compared with other lightweight framing solutions. By using framing schemes with closely-spaced vertical members repetitively placed in the walls, CFS buildings develop lateral resistance through strap, sheet, or sheathing attached to these vertical members. The response of these building systems under earthquake loads and, in particular, the contribution of portions of the building system not specifically designated by the design engineers to resist earthquake loads are not well understood. This award will undertake a series of experiments and complementary numerical modeling to characterize the relationship between the designated lateral force resisting system, i.e., the shear walls, and the complete CFS building system response, including the impact of the gravity walls, finish materials, and interior partitions, during seismic events. Taken in totality, this project will contribute to the nation's welfare by advancing fundamental understanding and design methodologies for CFS building systems vulnerable to extreme natural hazards. The research plan involves an integrated collaboration among the University of California, San Diego (UCSD), Johns Hopkins University, and relevant industry organizations. The research team will conduct education and outreach to a diverse group of middle and high school students and teachers and integrate, into the project activities, high school, undergraduate, and graduate student researchers to help train the next generation workforce. The seismic resistance of repetitively framed structures is unique due to the large overstrength and the significant contribution of non-designated systems in the lateral response. In this project, a set of experiments de-constructing the building into wall lines and separate components will be conducted to provide unique information in understanding benchmark full-scale shake table tests. The shake table tests will be conducted on the NSF-supported Natural Hazards Engineering Research Infrastructure (NHERI) Large High Performance Outdoor Shake Table at UCSD. Using these experiments, for the first time, all major components of nonlinearity will be captured in complementary numerical building models that, when validated, will form the basis for wider seismic studies and evaluation. Project data will be made available in the NHERI Data Depot at https://www.designsafe-ci.org/.

迫切需要由可持续、低碳足迹材料建造的低成本、多灾害弹性建筑。由薄壁冷弯型钢（CFS）构成的中高层建筑有能力满足这一迫切需求。CFS框架结构的潜在好处包括安装和维护成本低，耐久性和延展性高，轻质框架，以及使用回收材料的制造过程。此外，与其他轻质框架解决方案相比，材料性能的一致性、高强度重量比和刚度以及使用不可燃材料都是额外的好处。通过使用在墙壁中重复放置紧密间隔的垂直构件的框架方案，CFS建筑通过连接到这些垂直构件的带子、板材或护套来产生侧向阻力。这些建筑物系统在地震荷载下的响应，特别是设计工程师没有特别指定的建筑物系统部分抵抗地震荷载的贡献，还没有很好地理解。该奖项将进行一系列的实验和补充数值建模，以表征指定的横向力抵抗系统之间的关系，即，剪力墙，以及完整的CFS建筑系统的反应，包括重力墙的影响，完成材料，和内部分区，在地震事件。总的来说，该项目将通过推进对CFS建筑系统易受极端自然灾害影响的基本理解和设计方法，为国家福利做出贡献。 该研究计划涉及加州大学圣地亚哥分校（UCSD）、约翰霍普金斯大学和相关行业组织之间的综合合作。研究团队将对不同的初中和高中学生和教师进行教育和推广，并将高中，本科和研究生研究人员融入项目活动，以帮助培养下一代劳动力。重复框架结构的抗震性能是独特的，这是由于结构具有很大的超强度，而且非指定体系对结构的侧向反应有很大的贡献。在本项目中，将进行一系列实验，将建筑物分解为墙线和独立部件，以提供了解基准全尺寸振动台试验的独特信息。振动台测试将在加州大学圣地亚哥分校的NSF支持的自然灾害工程研究基础设施（NHERI）大型高性能户外振动台上进行。 通过这些实验，非线性的所有主要组成部分将首次被捕获在互补的数字建筑模型中，这些模型在得到验证后，将成为更广泛的地震研究和评估的基础。项目数据将在NHERI数据库https://www.designsafe-ci.org/上提供。

项目成果

Earthquake and Postearthquake Fire Testing of a Midrise Cold-Formed Steel-Framed Building. II: Shear Wall Behavior and Design Implications

• DOI: 10.1061/(asce)st.1943-541x.0003098
• 发表时间: 2021-09
• 期刊: Journal of Structural Engineering-asce
• 作者: Xiang Wang;T. Hutchinson

Steel Sheet Sheathed Cold-Formed Steel Framed In-line Wall Systems. II: Impact of Nonstructural Detailing

钢板护套冷弯钢框架直列墙系统。

• DOI: 10.1061/(asce)st.1943-541x.0003434
• 发表时间: 2022
• 期刊: Journal of Structural Engineering
• 影响因子: 4.1
• 作者: Singh, Amanpreet;Wang, Xiang;Zhang, Zhidong;Derveni, Fani;Castaneda, Hernan;Peterman, Kara D.;Schafer, Benjamin W.;Hutchinson, Tara C.
• 通讯作者: Hutchinson, Tara C.

Steel Sheet Sheathed Cold-Formed Steel Framed In-line Wall Systems. I: Impact of Structural Detailing

钢板护套冷弯钢框架直列墙系统。

• DOI: 10.1061/(asce)st.1943-541x.0003433
• 发表时间: 2022
• 期刊: Journal of Structural Engineering
• 影响因子: 4.1
• 作者: Singh, Amanpreet;Wang, Xiang;Zhang, Zhidong;Derveni, Fani;Castaneda, Hernan;Peterman, Kara D.;Schafer, Benjamin W.;Hutchinson, Tara C.
• 通讯作者: Hutchinson, Tara C.

Methodology and Validation of UAV-Based Video Analysis Approach for Tracking Earthquake-Induced Building Displacements

• DOI: 10.1061/(asce)cp.1943-5487.0000928
• 发表时间: 2020-11
• 期刊: J. Comput. Civ. Eng.
• 作者: X. Wang;C. Wittich;T. Hutchinson;Y. Bock;D. Goldberg;E. Lo;F. Kuester

Cyclic Experiments on Steel Sheet Connections for Standard CFS Framed Steel Sheet Sheathed Shear Walls

标准CFS框架钢板剪力墙钢板连接循环试验

• DOI: 10.1061/(asce)st.1943-541x.0003233
• 发表时间: 2022
• 期刊: Journal of Structural Engineering
• 影响因子: 4.1
• 作者: Zhang, Z.;Singh, A.;Derveni, F.;Torabian, S.;Peterman, K. D.;Hutchinson, T. C.;Schafer, B. W.
• 通讯作者: Schafer, B. W.