Abstract
The scale model is an effective method to research the performance of quayside container crane (QCC) under the seismic condition, but the model distortion usually exists in the similar design process which leads to the incomplete similarity between the scale model and prototype. In this investigation, the distortion theory and the prediction coefficient correction method are used to upgrade the quality of 1/20 QCC scale model and, then, the seismic response of the QCC prototype is obtained from the shake table scale model test. In the first step, the similarity ratio of the 1/20 QCC scale model is calculated by the similitude law and the size of scale model is obtained from the similarity constants. In the second step, the bending stiffness is selected and determined as the distortion term and, then, the relationship between the distortion coefficient and the prediction coefficient is obtained by the finite element prediction coefficient method. Furthermore, the three different scale models are manufactured and tested in the shake table experiment under different seismic conditions. It is found that the experimental test results are consistent with the numerical simulation results of the QCC prototype. It can be concluded that the QCC scale model can be used to predict the performance of the prototype under the different seismic conditions after corrected by distortion theory, and the distortion theory is an effective method to solve the incomplete similarity between the scale model and prototype.
Highlights
Quayside container crane (QCC) is an important loading and unloading equipment in the port, which has been usually damaged by the earthquake
52 numbers of QCC were destroyed by the 7.0-magnitude earthquake at the container terminal of the Kobe port in 1995 [1]. e 8.8-magnitude earthquake occurred in Kone Rolle, which led to collapse of some loading and unloading equipment in 2010. us, it is necessary to investigate the structure and the seismic performance of QCC through effective experimental and numerical methods
It can be concluded that the scale model can be used to investigate the QCC performance which is corrected by distortion theory
Summary
Quayside container crane (QCC) is an important loading and unloading equipment in the port, which has been usually damaged by the earthquake. In the past 20–30 years, the scale models of QCC were manufactured from 1 : 15 to 1 : 50 for the different carrying capacities of the shake table, which were fully used to investigate the large-scale equipment performance under the different seismic conditions. Distortion theory has been used to solve the problem of incomplete similarity between the model and prototype in the dynamic investigation process of mechanical manufacture [7, 8] and architecture design [9]; in addition, the design process and confirmation method of the scale model were analyzed. Wang et al [10] confirmed the dynamic similarity relationship between the scale model and prototype in the design process of the circular plate; the model of thin wall part was designed to investigate the dynamic characteristics of the prototype [11] to solve the distortion problem of the thickness of the beam that cannot be adjusted by the same scale as the
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