船舶甲板支撑结构与船舶的功能性和使用寿命密切相关,大量的统计数据表明,船舶甲板支撑结构的破坏形式主要包括2种,一类是冲击破坏,另一类是疲劳破损。其中,由于船舶的工作环境长期处于波浪等周期性载荷的影响下,因此甲板结构的疲劳破坏是最主要的破坏形式。针对这一问题,对船舶甲板支撑结构的疲劳强度特性进行分析,结合S-N曲线法和热点应力分析方法,建立船舶本体及甲板的支撑结构有限元模型,在Ansys软件中完成了甲板支撑结构的疲劳强度仿真设计。
The ship deck support structure is closely related to the ship's functionality and service life. A large number of statistical data show that there are mainly two types of damage to the ship deck support structure, one is impact damage, the other is fatigue damage. Among them, because the ship's working environment is under the influence of periodic loads such as waves for a long time, therefore, Fatigue failure of deck structure is the main failure form. To solve this problem, this paper systematically analyzes the fatigue strength characteristics of the ship deck support structure. Combined with the S-N curve method and hot spot stress analysis method, the finite element model of the ship body and deck support structure is established, and the fatigue strength simulation design of the deck support structure is completed in Ansys software.
2022,44(6): 50-53 收稿日期:2021-10-30
DOI:10.3404/j.issn.1672-7649.2022.06.010
分类号:U656.25
基金项目:中交(天津)疏浚工程有限公司、天津海运职业学院横向课题(SJ-ZB[2021]402)
作者简介:方磊(1982-),男,高级工程师,研究方向为船舶体系和安全管理、船舶海务管理及工程船舶疏浚技术
参考文献:
[1] 刘志强, 王明强, 朱永梅. 基于Miner累计损伤理论的海洋石油平台系泊链疲劳强度分析[J]. 造船技术(4): 19−21, 34.
[2] 杨文华, 韩继文, 汪庠宝, 等. 大型散货船结构点疲劳寿命的分析计算[J]. 船舶工程, 1998(2): 5–7
[3] 赵宁, 李虎. 应用修正的P-S-N曲线计算齿轮疲劳寿命[J]. 现代制造工程, 2007(5): 105–107+134
[4] 郑晓阳, 谢基龙, 缪龙秀, 等. 16Mn钢焊接接头的Miner疲劳累积损伤可靠性模型研究[J]. 北京交通大学学报, 1999(1): 113−116.
[5] 解放. 典型构件疲劳性能S-N曲线的获取及应用[J]. 机械设计, 2015, 32(4): 71–73
[6] 王虎, 王轲, 赵丽茹. 基于非线性累积损伤的随机振动疲劳寿命分析[J]. 振动、 测试与诊断, 2018, 38(5): 7
