结构工程
参数统计
剪力墙
工程类
剪切(地质)
帧(网络)
过程(计算)
交叉层压木材
计算机科学
材料科学
机械工程
数学
复合材料
统计
操作系统
作者
Renjie Wu,Yongjia Xu,Yubing Hou,Xiangfei Zhang,Yan Xiao
摘要
ABSTRACT This study investigates the lateral loading performance of lightweight wood‐frame shear walls with bamboo or wood sheathing panels, exploring the potential of sustainable materials in construction. Firstly, the monotonic and cyclic experimental tests were carried out, focusing on four types of shear walls measuring 1.22 and 2.44 m in length, with 9 mm glued laminated bamboo (plybamboo) and oriented strand board (OSB) sheathing panels. Secondly, empirical formulas were derived to identify critical points on the simplified models representing the monotonic curves of the shear walls, including the yield, peak, and ultimate points, based on test results of nails only. Thirdly, this study establishes a simplified numerical model using OpenSeesPy to simulate the cyclic behavior of the shear walls. To address the limitations of traditional parameter calibration methods, this study employs intelligent model parameter identification techniques based on genetic algorithm, fast deterministic neural networks, and the updated genetic algorithm. Finally, an efficient parameter adjustment method for unexamined shear wall cases was established, enhancing the models' predictability and practical values in design. In summary, it provides a foundation for a universal parametric method to advance the application of lightweight wood‐frame shear walls.
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