中国舰船研究
中國艦船研究
중국함선연구
CHINESE JOURNAL OF SHIP RESEARCH
2013年
1期
39-46
,共8页
水面舰船%双层结构%水下接触爆炸%破口%经验公式%吸能
水麵艦船%雙層結構%水下接觸爆炸%破口%經驗公式%吸能
수면함선%쌍층결구%수하접촉폭작%파구%경험공식%흡능
warship%double structure%underwater contact explosion%crevasse%empirical formula%ener?gy absorption
在充分调研国内外相关文献的基础上,选取当代海战中普遍使用的水下攻击武器以及大型舰船典型双层结构为研究对象,通过非线性有限元程序 LS-DYNA,对水面舰船双层结构水下抗爆特性进行数值模拟,分析各层结构在遭受水中兵器接触爆炸时的破坏模式并得出结论:采用所使用的材料模型及网格划分方法所得的结果与经验公式相符,具有良好的工程精度;底部破坏具有明显的网格状,破口受强力构件的限制,沿着强力构件裂开,花瓣状不明显;应力集中区域表现在内外底板间强力构件与内外底板的交接处,特别是龙骨等结构处.在此基础上,从吸能效果的角度计算各层结构的吸能比例,结果显示,在接触爆炸作用下,船底内、外底板间结构是主要的吸能结构,其吸收能量大于内、外底板.
在充分調研國內外相關文獻的基礎上,選取噹代海戰中普遍使用的水下攻擊武器以及大型艦船典型雙層結構為研究對象,通過非線性有限元程序 LS-DYNA,對水麵艦船雙層結構水下抗爆特性進行數值模擬,分析各層結構在遭受水中兵器接觸爆炸時的破壞模式併得齣結論:採用所使用的材料模型及網格劃分方法所得的結果與經驗公式相符,具有良好的工程精度;底部破壞具有明顯的網格狀,破口受彊力構件的限製,沿著彊力構件裂開,花瓣狀不明顯;應力集中區域錶現在內外底闆間彊力構件與內外底闆的交接處,特彆是龍骨等結構處.在此基礎上,從吸能效果的角度計算各層結構的吸能比例,結果顯示,在接觸爆炸作用下,船底內、外底闆間結構是主要的吸能結構,其吸收能量大于內、外底闆.
재충분조연국내외상관문헌적기출상,선취당대해전중보편사용적수하공격무기이급대형함선전형쌍층결구위연구대상,통과비선성유한원정서 LS-DYNA,대수면함선쌍층결구수하항폭특성진행수치모의,분석각층결구재조수수중병기접촉폭작시적파배모식병득출결론:채용소사용적재료모형급망격화분방법소득적결과여경험공식상부,구유량호적공정정도;저부파배구유명현적망격상,파구수강력구건적한제,연착강력구건렬개,화판상불명현;응력집중구역표현재내외저판간강력구건여내외저판적교접처,특별시용골등결구처.재차기출상,종흡능효과적각도계산각층결구적흡능비례,결과현시,재접촉폭작작용하,선저내、외저판간결구시주요적흡능결구,기흡수능량대우내、외저판.
In this paper,some generally used modern naval weapons and the typical double structure of large-sized warships are investigated on the basis of correlative literature review. Particularly,the anti-shock performance of the typical double structure is analyzed with LS-DYNA,and the results show that the model and method of grid divergence applied here agree with the empirical formula in achieving high engineering precision. Also,it has been found out that the damage pattern at the bottom is of visible grid style,and the crevasse appears to split along the strength member in an obscure petal style. Stress-inten?sive regions are mainly joint between the strength member and the bottom especially keels. Subsequent analysis of the energy absorption ratio indicate that the strength member between the inner and outer bot?tom,rather than the bottom itself,is indeed the key energy absorbing structure when contact explosion oc?curs.
