Development of Crack Width Prediction Models for RC Beam-Column Joint Subjected to Lateral Cyclic Loading Using Machine Learning

结构工程 栏(排版) 接头(建筑物) 梁(结构) 人工神经网络 钢筋混凝土 材料科学 有限元法 计算机科学 工程类 人工智能 连接(主束)
作者
Reventheran Ganasan,Chee Ghuan Tan,Zainah Ibrahim,Fadzli Mohamed Nazri,Muhammad M. Sherif,Ahmed El‐Shafie
出处
期刊:Applied sciences [Multidisciplinary Digital Publishing Institute]
卷期号:11 (16): 7700-7700 被引量:7
标识
DOI:10.3390/app11167700
摘要

In recent years, researchers have investigated the development of artificial neural networks (ANN) and finite element models (FEM) for predicting crack propagation in reinforced concrete (RC) members. However, most of the developed prediction models have been limited to focus on individual isolated RC members without considering the interaction of members in a structure subjected to hazard loads, due to earthquake and wind. This research develops models to predict the evolution of the cracks in the RC beam-column joint (BCJ) region. The RC beam-column joint is subjected to lateral cyclic loading. Four machine learning models are developed using Rapidminer to predict the crack width experienced by seven RC beam-column joints. The design parameters associated with RC beam-column joints and lateral cyclic loadings in terms of drift ratio are used as inputs. Several prediction models are developed, and the highest performing neural networks are selected, refined, and optimized using the various split data ratios, number of inputs, and performance indices. The error in predicting the experimental crack width is used as a performance index.
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