对考虑3种常见腐蚀缺陷(均匀腐蚀、局部腐蚀、点腐蚀)作用下的耐压壳极限强度研究现状进行介绍与评述,提出当前含腐蚀缺陷的耐压壳极限强度研究中存在的普遍问题,展望其今后的研究方向:建立健全描述耐压壳点坑腐蚀特性的规范数据库;综合考虑腐蚀和疲劳的耦合作用;逐步完善耐压壳腐蚀检测手段。
The ultimate strength of the pressure hull under corrosion under three common kinds of corrosion (uniform corrosion, local corrosion, pitting corrosion) in recent years is reviewed. put forward the commom problem of current status for Ultimate strength of the pressure hull under corrosion at present. Upon these, the study development future may be as follows:first, establishing and improving the standard database of describing the character of the pressure hull under pitting corrosion; second, considering the effect of the interaction between corrosion and fatigue; third, gradually perfect the detection means of the pressure hull under corrosion.
2018,40(7): 1-5,21 收稿日期:2017-05-22
DOI:10.3404/j.issn.1672-7649.2018.07.001
分类号:U663.7
基金项目:国防基金资助项目
作者简介:马晓龙(1993-),男,硕士研究生,研究方向为船舶结构与振动
参考文献:
[1] 宫杰, 万彪, 吴梵等. 21世纪潜艇发展[J]. 船海工程, 2004(1):45-47.
[2] 崔维成, 刘水庚, 顾继红等. 国外潜艇设计和性能研究的一些新动态[J]. 船舶力学, 2000(4):65-66.
[3] 冀南. 腐蚀对潜器耐压船体剩余强度影响的分析[D]. 哈尔滨:哈尔滨工程大学, 2009.
[4] LIANG Cho-chung, SHIAH Sheau-wen, JEN Chan-yung, et al. Optimum design ofmultiple intersectingspheres deep-submerged pressure hull[J]. Ocean Engineering, 2004, 31, 177-199.
[5] 陆蓓, 刘涛, 崔维成. 深海载人潜水器耐压球壳极限强度研究[J]. 船舶力学, 2004, 8(1):51-58.
[6] 吴进怡, 柴柯, 肖伟龙等. 25钢在海水中的微生物单因素腐蚀[J]. 金属学报, 2010, 46(6):755-760.
[7] FERNANDEZ J, ILLESCA S S, GUILEMANY J M. Effect of Microalloying Elements on the Austenitic Grain Growth in a Low Carbon HSLA Steel[J]. Materials Letters, 2007, 61(11/12):2389-2392.
[8] 徐科. 英国潜艇用钢及其焊接材料[J]. 材料开发与应用, 2008, 23(4):55-58.
[9] 王燕舞, 崔维成. 考虑腐蚀影响船舶结构可靠性研究现状与展望[J]. 船舶力学, 2007, 11(2):307-320.
[10] 唐莺, 潘孟春, 罗飞路. 脉冲漏磁检测技术中传感器性能影响因素研究[J]. 仪器仪表学报, 2010, 31(12):2875-2880.
[11] CROUCH A, ANGLISANO R, JAARAH M. Quantitative field evaluation of magnetic-flux-leakage and ultrasonic in-line inspection[J]. Pipes&Pipelines International, 1996, 41(4):23-32.
[12] 甘芳吉, 万正军, 罗航等. 基于场指纹法的金属管道小腐蚀坑的监测方法[J]. 仪器仪表学报, 2013, 34(9):2087-2094.
[13] 杨青松, 雷渡民. 舰船重点部位腐蚀监测系统研究[J]. 中国工程科学, 2015, 17(5):63-70.
[14] 潘文华. 浅谈无损检测[J]. 黑龙江科技信息, 2011, 2:24, 170.
[15] SOUTHWELL C R, BULTMAN J D, HUMMER Jr C W. Estimating of service life of steel in seawater[M]. In:Schumacher M, editor. Seawater Corrosion Handbook. New Jersey:Noyes Data Corporation, 1979:374-387.
[16] S. QIN, W. CUI. Effect of corrosion models on the time-dependent reliability of steel plated elements[J]. Mar. Struct, 2003, 16:15-34.
[17] PAIK J K, KIM S K, LEE S K. Probabilistic corrosion rate estimation model for longitudinal strength members of bulk carriers[J]. Ocean Engineering, 1998, 25(10):837-860.
[18] GUEDES SOARES C, GARBATOV Y. Reliability assessment of maintained ship hulls with correlated corroded elements[J]. Marine Structures, 1997, 10:629-653.
[19] KOZLIAKOV V V. Analysis of structural peeuliarities and causes of severe hull damages of bulkcarriers, tankers and OBO-ships[J]. Teehnique Report, Odessa Marine Engineering Institute, 1997.
[20] 魏东, 张圣坤, 周继胜. 考虑腐蚀与疲劳损伤的船体总纵极限强度与可靠性分析[J]. 中国造船, 1999, 4:43-50.
[21] 林振东. 腐蚀影响下海洋平台结构的极限承载力研究[D]. 镇江:江苏科技大学, 2014.
[22] PAIK J K, KIM S K, LEE S K. Probabilistic corrosion rate estimation model for longitudinal strength members of bulk carriers[J]. Ocean Engineering, 1998, 25(10):837-860.
[23] 王燕舞, 黄小平, 崔维成等. 船舶结构钢海洋环境点蚀模型研究之一:最大点蚀深度时变模型[J]. 船舶力学, 2007, 11(4):577-586.
[24] QIN S P, CUI W C. Effect of corrosion models on the time-dependent reliability of steel plated elements[J]. Marine Structure, 2003, 16:15-34.
[25] MELCHERS R E. Pitting corrosion of mild steel in marine immersion environment-Part 1:Maximum pit depth[J]. Corrosion, 2004, 60(9):824-836.
[26] 张岩. 含腐蚀损伤船体结构屈曲评估方法研究[D]. 大连:大连理工大学, 2011.
[27] 张岩, 黄一, 刘刚. 点蚀损伤船体结构板的极限剪切屈曲强度研究[J]. 船舶力学, 2013Z1:102-111.
[28] 孟凡磊. 含点蚀损伤加筋板结构极限强度研究[D]. 大连:大连理工大学, 2014.
[29] 杜晶晶, 杨平, 崔冲, 夏添. 点蚀板在纵向压力作用下的极限强度研究[J]. 船舶工程, 2016. 9(38):89-94.
[30] 滑林, 吴梵. 联合载荷作用下点蚀船体板的极限强度计算方法研究[C]//第10届武汉地区船舶与海洋工程研究所学术论坛, 2017.
[31] 王燕舞, 吴晓源, 张雨华, 等. 船舶结构钢海洋环境点蚀模型研究之二:实船蚀坑形态与径深比时变模型[J]. 船舶力学, 2007, 11(5):735-743.
[32] PAIK J K, LEE J M, KO M J. Ultimate shear strength of plate elements with pit corrosion wastage[J]. Thin-Walled Structures, 2004, 42:1161-1176.
[33] 徐强, 万正权. 含坑点腐蚀的壳体有限元方法[J]. 钢结构论文集, 2010, 14(1-2):84-93.
[34] 韦丽金. 点蚀疲劳寿命估算的投影面积法[D]. 南京:南京航空航天大学, 2008.
[35] HUANG Y, ZHANG Y, LIU G, et al. Ultimate strength assessment of hull structural plate with pitting corrosion damnification under biaxial compression[J]. Ocean Engineering, 2010, 37(17-18):1503-1512.
[36] JIANG X, GUEDES S C. Ultimate capacity of rectangular plates with partial depth pits under uniaxial loads[J]. Marine Structures, 2012, 26(1):27-41.
[37] 王仁华, 俞铭华, 李良碧, 王自力等. 初始缺陷对深海载人潜水器耐压球壳塑性稳定性影响. 中国造船, 2005, 46(4):92-96.
[38] 张岩. 含腐蚀损伤船体结构屈曲评估方法研究[D]. 大连:大连理工大学, 2011.
[39] 孙洁. 随机分布点蚀损伤下平台圆管构件的极限承载力研究[D]. 镇江:江苏科技大学, 2016.
[40] YAN Zhang, YI Huang, QI Zhang, GANG Liu. Ultimate strength of hull structural plate with pitting corrosion damnification under combined loading[J]. Ocean Engineering, 2016, 116:273-285.
[41] 徐强, 万正权. 含坑点腐蚀的深海耐压球壳有限元分析[J]. 船舶力学, 2011, 15(5):488-505.
[42] 向杨君, 卞如冈. 耐压壳体局部腐蚀稳定性计算方法[C]//中国钢结构协会海洋钢结构分会学术论文集, 2015.
[43] 朱锡, 吴梵. 舰艇强度[M]. 北京:国防工业出版社.
[44] 陈严飞. 海底腐蚀管道破坏机理和极限承载力研究[D]. 大连:大连理工大学, 2009.
