Abstract
As the accident of a vessel impacting a bridge pier will cause serious disaster, such as destroyed bridge, sinking ship and polluting environment, the technology and method to protect bridge pier from ship collision have been widely investigated recently. Due to the huge kinetic energy of large-tonnage ship and the short time duration in the collision, the studies involve impact mechanics. A developed flexible crashworthy device has been developed to protect bridges, which consists of an outer steel-periphery, an inner steel-periphery and the rubber coating SWRCs(soft elements) installed between them. When the SWRC crashworthy device is installed, the collision duration under low impact force is prolonged due to its high compliance, which results in the ship having enough time to turn its navigation direction and most of the remainder kinetic energy being carried off by the turned away ship. Consequently, both impact forces on the ship and on the bridge pier decrease markedly. This is the key reason as to why the SWRC crashworthy device can avoid the destruction of both the bridge and the ship. Based on our results of theoretical studies and numerical simulations, the present paper will propose an experiment-adopted a real ship to impact a flexible crashworthy device. The collision test has been performed 12 times with different speed, carrying capacity, and impact angle of the ship. After the experiments, the ship, flexible crashworthy device and the pier are not damaged. The experiments show that the flexible crashworthy device can turn away the impact ship, so that the ship moves along the outer part of the device, which reduces the ship impact force on the bridge pier obviously. It not only protects bridges but also avoids the damage to ships.
Highlights
As the accident of a vessel impacting a bridge pier will cause serious disaster, such as destroyed bridge, sinking ship and polluting environment, the technology and method to protect bridge pier from ship collision have been widely investigated recently [1]
The present paper will introduce an experiment: adopted a real ship to impact the flexible crashworthy device to validate its capability of protecting the bridge pier and the impacting ship
A developed flexible crashworthy device is shown in Fig. 1, which consists of an outer steel-periphery, an inner steel-periphery and the rubber coating steel-wire-rope coil (SWRC) installed between them
Summary
As the accident of a vessel impacting a bridge pier will cause serious disaster, such as destroyed bridge, sinking ship and polluting environment, the technology and method to protect bridge pier from ship collision have been widely investigated recently [1]. Due to the huge kinetic energy of large-tonnage ship and the short time duration in the collision, the studies involve impact mechanics. The model experiments, the theoretical analyse and numerical simulations have attracted tremendous research interest in the last few decades [2,3,4,5]. The results obtained could not be accepted by bridge managements, due to the devices have not been undergone a impact test with a real ship. Based on our results of theoretical studies and numerical simulations [2], a flexible crashworthy device to protect bridge pier against ship collision has been developed. The present paper will introduce an experiment: adopted a real ship to impact the flexible crashworthy device to validate its capability of protecting the bridge pier and the impacting ship
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