Ultimate Shear Strength of Pitted Plates with Crack Using Finite Element Method

IF 0.5 4区 工程技术 Q4 ENGINEERING, MARINE
A. R. Ranji, Nima Maghsodi, S. Alirezaee
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引用次数: 0

Abstract

Ultimate strength of thin steel plates was studied under shear loading when pitting corrosion and cracking occur simultaneously. Nonlinear finite element method was used and the effects of different geometrical parameters, such as crack position, crack length, pit depth, pit diameter, number of the pits, and the inclination angle of the crack, were investigated. It was found that the degree of the pitting (DOP) significantly reduces the ultimate shear strength of the pitted plates when the corrosion is low. For high amount of corrosion, the reduction of the ultimate shear strength remains the same regardless of the amount of the DOP. In plates with short cracks, the crack length has no influence on the reduction of the ultimate shear strength. Also, it was found that the position of the crack is more effective than the length of the crack on the reduction of the ultimate shear strength of the cracked plates. In the cracked-pitted plates, there was no interaction between crack and pit for extremes value of DOP. For low value of DOP, the ultimate shear strength of the cracked-pitted plate was the same as the cracked plate, and for large value of DOP, it is the same as pitted plate. According to a study performed between 2002 and 2008 by American Bureau of Shipping (ABS) (“Review of Current Practices of Fracture” 2012), majority of reported fractures of the ships were structural failures, such as weld defect, buckling, fracture, and cracking. Cracks and corrosion are two more common defects, which are the main reasons of the failure of the aged steel structures. Plates and stiffened plates are the main structural elements in many structures, including airplanes, bridges, offshore structures, and ships. Ultimate strength evaluation of these structural elements is crucial for rational design of structures, such as Load Resistance Factor Design (LRFD) methods in civil engineering and Ultimate Strength (UTS) evaluation in ship structure. Many studies are carried out to evaluate ultimate strength of intact and damaged plates/ stiffened plates under in-plane compressive stress. Ranji (2012) studied ultimate strength of plate with general corrosion under in-plane compression. He proposed a spectrum for random generation of corroded surface and ultimate strength of corroded plate was evaluated using computer code ANSYS. Ranji and Zarookian (2015) analyzed ultimate strength of cracked stiffened plates with cracks having different stiffeners numerically.
用有限元法研究带裂纹孔板的极限剪切强度
研究了薄钢板在剪切载荷作用下同时发生点蚀和裂纹时的极限强度。采用非线性有限元方法,研究了不同几何参数(如裂纹位置、裂纹长度、凹坑深度、凹坑直径、凹坑数量和裂纹倾角)的影响。研究发现,当腐蚀程度较低时,点蚀程度显著降低了点蚀板的极限剪切强度。对于高腐蚀量,无论DOP的量如何,极限剪切强度的降低都保持不变。在具有短裂纹的板中,裂纹长度对极限剪切强度的降低没有影响。此外,还发现裂纹的位置比裂纹的长度对裂纹板的极限剪切强度的降低更有效。在有裂纹的凹坑板中,对于DOP的极值,裂纹和凹坑之间没有相互作用。对于低DOP值,有裂纹的麻面板的极限剪切强度与有裂纹的板相同,对于大DOP值则与麻面板相同。根据美国船级社(ABS)在2002年至2008年间进行的一项研究(2012年“当前断裂实践综述”),大多数报告的船舶断裂是结构故障,如焊接缺陷、屈曲、断裂和开裂。裂纹和腐蚀是两种较为常见的缺陷,是导致老化钢结构失效的主要原因。板和加筋板是许多结构中的主要结构元件,包括飞机、桥梁、海上结构和船舶。这些结构元件的极限强度评估对于结构的合理设计至关重要,例如土木工程中的荷载阻力系数设计(LRFD)方法和船舶结构的极限强度(UTS)评估。进行了许多研究来评估平面内压应力下完整和受损板/加筋板的极限强度。Ranji(2012)研究了平面内压缩条件下具有一般腐蚀的板的极限强度。他提出了腐蚀表面随机产生的谱,并使用计算机程序ANSYS评估了腐蚀板的极限强度。Ranji和Zarokian(2015)对具有不同加劲肋的裂纹加筋板的极限强度进行了数值分析。
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来源期刊
CiteScore
1.10
自引率
0.00%
发文量
19
期刊介绍: Original and timely technical papers addressing problems of shipyard techniques and production of merchant and naval ships appear in this quarterly publication. Since its inception, the Journal of Ship Production and Design (formerly the Journal of Ship Production) has been a forum for peer-reviewed, professionally edited papers from academic and industry sources. As such it has influenced the worldwide development of ship production engineering as a fully qualified professional discipline. The expanded scope seeks papers in additional areas, specifically ship design, including design for production, plus other marine technology topics, such as ship operations, shipping economics, and safety. Each issue contains a well-rounded selection of technical papers relevant to marine professionals.
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