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海底光电复合电缆冲击响应试验及仿真研究OA

Test and Simulation Study on Impact Response of Submarine Optoelectronic Composite Cables

中文摘要英文摘要

为探讨海底光电复合电缆(submarine optical-electrical composite cable,SOCC)在不同工况下的抗冲击力学性能,对SOCC开展落锤冲击试验,揭示不同变量下其外铠装的结构变形特征,记录冲击演化过程和最大凹陷变形程度;然后,对SOCC开展有限元模拟,并与试验结果进行对比分析;最后,探讨了SOCC在不同参数影响下的变形特征.结果表明:内外铠装均发生了凹陷变形,铜铠装、铜导体和光缆铠装主要表现为弯曲变形,同时耦合局部凹陷变形;随着冲击能量的增大,金属构件达到最大变形所需时间缩短、回弹加快;冲击角度对内外铠装凹陷变形的影响不明显,对内部其他构件产生了显著破坏,其中上方构件的变形破坏最为严重.研究结果有利于对SOCC的动力学性能评估,并为工程中SOCC保护措施设计提供参考.

This thesis aims to explore the impact resistance mechanical properties of submarine optical-electrical composite cable(SOCC)under different working conditions.Firstly,a hammer impact test was carried out on SOCC to reveal the structural deformation characteristics of the outer armour under different variables,and to record the impact evolution process and the maximum degree of concave deformation;secondly,a finite element simulation analysis was carried out on SOCC,and a comparison analysis was made with the test results;lastly,the deformation characteristics of SOCC under the influence of different parameters were explored.The results show that both the inner and outer armour undergoes depression deformation,while the copper armour,copper conductor and optical cable armour mainly show bending deformation,coupled with local depression deformation.With the increase of impact energy,the time required for metal components to reach the maximum deformation decreases,and the faster the rebound is;the impact angle does not have a significant effect on the depression deformation of the inner and outer armour,and produces significant damage to other internal components,of which the upper component has the most serious deformation damage.This paper is conducive to the evaluation of the dynamic performance of SOCC and provides a reference for the design of SOCC protection measures in engineering.

罗龙琦;李科斌;赵远涛;周风华;郑宇轩

宁波大学冲击与安全工程教育部重点实验室,浙江 宁波 315211宁波大学冲击与安全工程教育部重点实验室,浙江 宁波 315211宁波东方电缆股份有限公司,浙江 宁波 315211宁波大学冲击与安全工程教育部重点实验室,浙江 宁波 315211宁波大学冲击与安全工程教育部重点实验室,浙江 宁波 315211

数理科学

海底光电复合电缆冲击能量变形特征ABAQUS

submarine optical-electrical composite cableimpact energydeformation characteristicsABAQUS

《高压物理学报》 2026 (2)

100-114,15

宁波市重点研发计划(2023Z050)

10.11858/gywlxb.20251083

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