PEridynamic Analysis of Tubular Joints of Offshore Jacket Structure

IF 1.3 4区工程技术 Q3 ENGINEERING, MECHANICAL

Journal of Offshore Mechanics and Arctic Engineering-Transactions of the Asme Pub Date : 2023-11-07 DOI:10.1115/1.4064015

Pranitha Bachimanchi, Nilanjan Saha

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Abstract

Abstract Peridynamic theory is the reformulation of classical mechanics mathematical theory compatible with cracks while performing structural analysis. The present study models the tubular joints having T, Y, K, and X configurations in the peridynamic framework by implementing peridynamic shell governing equations. The magnitude of deformations under static loading and the displacement variation at the subsequent load steps varying in a sinusoidal and irregular manner are validated. The crack initiation location at the stress-concentrated region and the crack growth path leading to fracture under linearly increasing loads for the considered tubular joints can be inferred from this approach. A comparative study is performed among the joint configurations based on the linear displacement variation and critical loads for the unstable deformation due to damaged material points at the joint intersection. In the present paper, apart from validating the implementation of novel theory in the offshore structure, the drawbacks and intricacies of the classical approach for studying crack initiation and growth in complex tubular joint structures are resolved by the peridynamic approach.

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海上导管架结构管状接头的周动力分析

摘要周动力理论是经典力学数学理论在进行结构分析时与裂缝相适应的重新表述。本文采用环动力壳控制方程，对环动力框架中具有T、Y、K和X构型的管状节点进行了建模。验证了静载荷作用下的变形幅度和后续加载阶段的位移变化以正弦和不规则方式变化。利用该方法可以推断出所考虑的管状接头在线性增加载荷作用下应力集中区域的裂纹起裂位置和导致断裂的裂纹扩展路径。对基于线性位移变化的节理构型与节理相交处材料点损伤失稳变形的临界载荷进行了对比研究。在本文中，除了验证了新理论在海上结构中的实现之外，还通过周动力方法解决了研究复杂管状节理结构中裂纹起裂和扩展的经典方法的缺点和复杂性。

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来源期刊

Journal of Offshore Mechanics and Arctic Engineering-Transactions of the Asme 工程技术-工程：大洋

CiteScore

4.20

自引率

6.20%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Offshore Mechanics and Arctic Engineering is an international resource for original peer-reviewed research that advances the state of knowledge on all aspects of analysis, design, and technology development in ocean, offshore, arctic, and related fields. Its main goals are to provide a forum for timely and in-depth exchanges of scientific and technical information among researchers and engineers. It emphasizes fundamental research and development studies as well as review articles that offer either retrospective perspectives on well-established topics or exposures to innovative or novel developments. Case histories are not encouraged. The journal also documents significant developments in related fields and major accomplishments of renowned scientists by programming themed issues to record such events. Scope: Offshore Mechanics, Drilling Technology, Fixed and Floating Production Systems; Ocean Engineering, Hydrodynamics, and Ship Motions; Ocean Climate Statistics, Storms, Extremes, and Hurricanes; Structural Mechanics; Safety, Reliability, Risk Assessment, and Uncertainty Quantification; Riser Mechanics, Cable and Mooring Dynamics, Pipeline and Subsea Technology; Materials Engineering, Fatigue, Fracture, Welding Technology, Non-destructive Testing, Inspection Technologies, Corrosion Protection and Control; Fluid-structure Interaction, Computational Fluid Dynamics, Flow and Vortex-Induced Vibrations; Marine and Offshore Geotechnics, Soil Mechanics, Soil-pipeline Interaction; Ocean Renewable Energy; Ocean Space Utilization and Aquaculture Engineering; Petroleum Technology; Polar and Arctic Science and Technology, Ice Mechanics, Arctic Drilling and Exploration, Arctic Structures, Ice-structure and Ship Interaction, Permafrost Engineering, Arctic and Thermal Design.