Dieless bulging and nonlinear buckling of longan-shaped pressure hull

IF 2.3 3区 工程技术 Q2 ENGINEERING, MARINE International Journal of Naval Architecture and Ocean Engineering Pub Date : 2023-01-01 DOI:10.1016/j.ijnaoe.2023.100548
Rui He , Jian Zhang , Sakdirat Kaewunruen , Ming Zhan , Ping Liu
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引用次数: 1

Abstract

In this study, the dieless bulging and nonlinear buckling behaviours of a stainless longan-shaped pressure hull were investigated. According to the Cassini oval equation, the longan shape has a shape index of 0.1. The lengths of the major and minor axes of the designed longan-shaped pressure hull were approximately 400 and 396 mm, respectively. The wall thickness of this pressure hull was 1 mm. The Huber–von Mises stress and first yielding load of the designed longan-shaped shell and its inscribed polyhedral preform were investigated analytically and experimentally. Moreover, the dieless bulging of the designed longan-shaped pressure hull was investigated numerically and experimentally by using the nonlinear finite element method and a hydrostatic test, respectively. The analytical, experimental, and numerical results exhibited good agreement with each other.

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龙眼型耐压壳体无模胀形及非线性屈曲
对不锈钢龙眼型耐压壳体的无模胀形和非线性屈曲行为进行了研究。根据卡西尼椭圆方程,龙眼形状的形状指数为0.1。设计的龙眼型耐压壳体的长、短轴长度分别约为400 mm和396 mm。该耐压壳体壁厚为1毫米。对所设计的龙眼形壳体及其内切多面体预制体的Huber-von Mises应力和首次屈服载荷进行了分析和实验研究。采用非线性有限元法和水压试验对所设计的龙眼型耐压壳体的无模胀形进行了数值和实验研究。分析、实验和数值结果吻合良好。
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来源期刊
International Journal of Naval Architecture and Ocean Engineering
International Journal of Naval Architecture and Ocean Engineering ENGINEERING, MARINE-
CiteScore
4.90
自引率
4.50%
发文量
62
审稿时长
12 months
期刊介绍: International Journal of Naval Architecture and Ocean Engineering provides a forum for engineers and scientists from a wide range of disciplines to present and discuss various phenomena in the utilization and preservation of ocean environment. Without being limited by the traditional categorization, it is encouraged to present advanced technology development and scientific research, as long as they are aimed for more and better human engagement with ocean environment. Topics include, but not limited to: marine hydrodynamics; structural mechanics; marine propulsion system; design methodology & practice; production technology; system dynamics & control; marine equipment technology; materials science; underwater acoustics; ocean remote sensing; and information technology related to ship and marine systems; ocean energy systems; marine environmental engineering; maritime safety engineering; polar & arctic engineering; coastal & port engineering; subsea engineering; and specialized watercraft engineering.
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