Axial compressive residual ultimate strength of circular tube after lateral collision
The tubes which are applied in jacket platforms as the supporting structure might be collided by supply vessels. Such kind of impact will lead to plastic deformation on tube members. As a result, the ultimate strength of tubes will decrease compared to that of intact ones.In order to make a decision...
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doaj-7515259ea7744af9b4982fa263ea246e2020-11-24T22:05:07ZengElsevierInternational Journal of Naval Architecture and Ocean Engineering2092-67822019-01-01111396408Axial compressive residual ultimate strength of circular tube after lateral collisionRuoxuan Li0Daisuke Yanagihara1Takao Yoshikawa2Dept. of Maritime Engineering, Graduate School of Engineering, Kyushu University, 744 Motooka, Nishi-ku, Fukuoka, 819-0395, Japan; Corresponding author.Dept. of Marine Systems Engineering, Faculty of Engineering, Kyushu University, JapanDept. of Marine Systems Engineering, Faculty of Engineering, Kyushu University, JapanThe tubes which are applied in jacket platforms as the supporting structure might be collided by supply vessels. Such kind of impact will lead to plastic deformation on tube members. As a result, the ultimate strength of tubes will decrease compared to that of intact ones.In order to make a decision on whether to repair or replace the members, it is crucial to know the residual strength of the tubes. After being damaged by lateral impact, the simply supported tubes will definitely loss a certain extent of load carrying capacity under uniform axial compression. Therefore, in this paper, the relationship between the residual ultimate strength of the damaged circular tube by collision and the energy dissipation due to lateral impact is investigated. The influences of several parameters, such as the length, diameter and thickness of the tube and the impact energy, on the reduction of ultimate strength are investigated.A series of numerical simulations are performed using nonlinear FEA software LS-DYNA. Based on simulation results, a non-dimensional parameter is introduced to represent the degree of damage of various size of tubes after collision impact. By applying this non-dimensional parameter, a simplified formula has been derived to describe the relationship between axial compressive residual ultimate and lateral impact energy and tube parameters. Finally, by comparing with the allowable compressive stress proposed in API rules (RP2A-WSD A P I, 2000), the critical damage of tube due to collision impact to be repaired is proposed. Keywords: Ship collision, Ultimate strength, Circular tube, Axial compression, Numerical simulationhttp://www.sciencedirect.com/science/article/pii/S2092678218300992 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Ruoxuan Li Daisuke Yanagihara Takao Yoshikawa |
spellingShingle |
Ruoxuan Li Daisuke Yanagihara Takao Yoshikawa Axial compressive residual ultimate strength of circular tube after lateral collision International Journal of Naval Architecture and Ocean Engineering |
author_facet |
Ruoxuan Li Daisuke Yanagihara Takao Yoshikawa |
author_sort |
Ruoxuan Li |
title |
Axial compressive residual ultimate strength of circular tube after lateral collision |
title_short |
Axial compressive residual ultimate strength of circular tube after lateral collision |
title_full |
Axial compressive residual ultimate strength of circular tube after lateral collision |
title_fullStr |
Axial compressive residual ultimate strength of circular tube after lateral collision |
title_full_unstemmed |
Axial compressive residual ultimate strength of circular tube after lateral collision |
title_sort |
axial compressive residual ultimate strength of circular tube after lateral collision |
publisher |
Elsevier |
series |
International Journal of Naval Architecture and Ocean Engineering |
issn |
2092-6782 |
publishDate |
2019-01-01 |
description |
The tubes which are applied in jacket platforms as the supporting structure might be collided by supply vessels. Such kind of impact will lead to plastic deformation on tube members. As a result, the ultimate strength of tubes will decrease compared to that of intact ones.In order to make a decision on whether to repair or replace the members, it is crucial to know the residual strength of the tubes. After being damaged by lateral impact, the simply supported tubes will definitely loss a certain extent of load carrying capacity under uniform axial compression. Therefore, in this paper, the relationship between the residual ultimate strength of the damaged circular tube by collision and the energy dissipation due to lateral impact is investigated. The influences of several parameters, such as the length, diameter and thickness of the tube and the impact energy, on the reduction of ultimate strength are investigated.A series of numerical simulations are performed using nonlinear FEA software LS-DYNA. Based on simulation results, a non-dimensional parameter is introduced to represent the degree of damage of various size of tubes after collision impact. By applying this non-dimensional parameter, a simplified formula has been derived to describe the relationship between axial compressive residual ultimate and lateral impact energy and tube parameters. Finally, by comparing with the allowable compressive stress proposed in API rules (RP2A-WSD A P I, 2000), the critical damage of tube due to collision impact to be repaired is proposed. Keywords: Ship collision, Ultimate strength, Circular tube, Axial compression, Numerical simulation |
url |
http://www.sciencedirect.com/science/article/pii/S2092678218300992 |
work_keys_str_mv |
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