Seismic Performance of Full-Scale Autoclaved Aerated Concrete Panel-Assembled Walls: Experimental Study and Numerical Modeling

Author:

Li Xiaowei1ORCID,Ma Dongwen1,Zhang Qidi2,Zhang Zhaoqiang1,Bao Han2,Yao Yong1

Affiliation:

1. School of Civil Engineering and Architecture, Southwest University of Science and Technology, Mianyang 621010, China

2. China Railway Eryuan Engineering Group Co., Ltd., Chengdu 610031, China

Abstract

Prefabricated panel-assembled wall systems, comprising a confining frame and infill lightweight panels of autoclaved aerated concrete (AAC), are widely employed in framed structures. Different from studies on a main frame with infill walls, this study aimed to explore the seismic performance of partition walls, which were fabricated with AAC panel-assembled walls and located outside of the main frames. Two full-scale specimens, one with a door opening and the other without, were constructed and cyclic loading tests were executed to examine the failure modes, hysteresis characteristics, envelope curves, ductility, strength and stiffness degradation, as well as energy dissipation capacity of the AAC panel-assembled walls. Additionally, a restoring-force model for the panel-assembled walls was developed and a method for predicting the lateral load-bearing capacity of the AAC panel-assembled walls was proposed. The findings indicated that the panels enhanced the system’s lateral resistance, energy dissipation capacity, and deformation capability. The door frame increased the initial stiffness, peak lateral load and energy dissipation capacity of the AAC panel-assembled wall compared to the wall without a door frame. Compared to the specimen without a door frame, the peak lateral load of the specimen with a door frame increased by 19.7–30.1%. The deformation capacity of the panel-assembled walls aligned with the requirements for concrete framed structures.

Funder

NATURAL SCIENCE FOUNDATION OF SICHUAN PROVINCE

NATURAL SCIENCE FOUNDATION OF SOUTHWEST UNIVERSITY OF SCIENCE AND TECHNOLOGY

Publisher

MDPI AG

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