舰船设备抗冲击能力的仿真研究
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摘要
在舰船战争中很容易受敌方武器的攻击,如果是非接触爆炸并不会将船体结构击穿,但是却会严重破坏船用设备。一般情况下,船舶任务的执行需依靠设备系统,如果关键性设备系统被破坏,将严重影响其战斗能力。而且设备抗冲击能力远远低于船体,所以舰船设备抗冲击能力的增强对舰船生命力与战斗力提高十分重要。本文主要研究了船舶的动力设备振动性与抗冲击性,以及其对舰船战斗实力产生的影响,并通过数学建模对船舶设备的受力进行仿真。
In the war of ships, it is easy to be attacked by enemy weapons. If it is a non-contact explosion, it will not break down the hull structure, but it will seriously damage the marine equipment. Under normal circumstances, the execution of the ship's mission depends on the equipment system. If the critical equipment system is destroyed, it will seriously affect its combat capability. Moreover, the impact resistance of the equipment is far lower than that of the hull, so the enhancement of the impact resistance of the ship equipment is very important for the improvement of the ship's vitality and combat effectiveness. This paper mainly studies the vibration and impact resistance of the ship's power equipment, as well as its impact on the ship's combat strength, and simulates the force of the ship's equipment through mathematical modeling.
In the war of ships, it is easy to be attacked by enemy weapons. If it is a non-contact explosion, it will not break down the hull structure, but it will seriously damage the marine equipment. Under normal circumstances, the execution of the ship's mission depends on the equipment system. If the critical equipment system is destroyed, it will seriously affect its combat capability. Moreover, the impact resistance of the equipment is far lower than that of the hull, so the enhancement of the impact resistance of the ship equipment is very important for the improvement of the ship's vitality and combat effectiveness. This paper mainly studies the vibration and impact resistance of the ship's power equipment, as well as its impact on the ship's combat strength, and simulates the force of the ship's equipment through mathematical modeling.
引文
[1]张鲁君,贺国,潘兴隆.舰船海水管路腐蚀状态检测方法研究[J].中国修船,2018(05):35-39.
[2]王正才.基于以太网的舰船动力信息系统构建与应用[J].内燃机与配件,2018(18):188-189.
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[5]郭君,孙占忠,黄式璋,等.舰艇气瓶基座结构抗冲击性能评估方法[J].中国舰船研究,2018,13(03):90-96.
[6]赵光明,崔安稳,曲慧.预加轴力下内置加劲环K型管节点抗冲击性能有限元模拟[J].烟台大学学报(自然科学与工程版),2018,31(02):164-170.
[2]王正才.基于以太网的舰船动力信息系统构建与应用[J].内燃机与配件,2018(18):188-189.
[3]王勋龙,聂建立,洪晓莉,等.舰船设备振动试验标准分析[J].中国质量与标准导报,2018(09):61-67.
[4]戚双斌,王东阳,刘东,等.舰船供电生命力测试分析[J].船舶工程,2018,40(07):66-69+106.
[5]郭君,孙占忠,黄式璋,等.舰艇气瓶基座结构抗冲击性能评估方法[J].中国舰船研究,2018,13(03):90-96.
[6]赵光明,崔安稳,曲慧.预加轴力下内置加劲环K型管节点抗冲击性能有限元模拟[J].烟台大学学报(自然科学与工程版),2018,31(02):164-170.