基本信息：

宋月林，讲师，工学博士，硕士生导师

学科方向：船舶与海洋结构物设计制造

电子邮件-Email：2023016@zjou.edu.cn. songyl_wut@163.com

通讯地址：浙江省舟山市定海区临城街道海大南路1号工科楼408室

研究方向:

[1]    船体结构安全可靠性

[2]    船体结构数字孪生

[3]    海洋平台预警预报

个人教育与工作简历：

[1]    2017.09-2022.12：武汉理工大学，船舶与海洋工程，博士

[2]    2023.03至今：浙江海洋大学，船舶与海洋工程，讲师

主持项目：

[1]    船舶结构低周疲劳与累积塑性耦合作用的承载力研究，国自然面上项目，51779198，2018.1-2021.12，参与

[2]    恶劣海况中***结构安全性评估，JC基础加强计划项目，20***JQ01，2021.11-2024.6，参与

[3]    交变载荷下船体结构低周疲劳裂纹扩展与承载力研究，中央高校优秀博士论文培育项目，019-YB-014，2019.7-2022.7，主持

[4]    递增塑性与低周疲劳耦合作用下船体结构极限强度研究，浙江省教育厅科研项目，Y202353928，2023.10-2026.9，主持

发表论文：

[1]    PengZY, YangSB, WangKH, WangJC, SongYL. Stress intensity factor analysis for mixed-mode fracture behavior of pipes with multiple inclined surface cracks considering crack interference effects[J]. International Journal of Pressure Vessels and Piping,2026,Vol.219: 105651.(中科院2 区SCI).

[2]    Song YL,XuZ,PengZY ,et al. Comparative Study on the Influence of Residual Tensile and Compressive Stresses From Welding on the Fatigue Crack Propagation Available to Purchase[J]. Journal of Offshore Mechanics and Arctic Engineering,2025,Vol.147(6): 061701. (JCR 2 区SCI).

[3]    XiaT,YangP,CuiHW, Song YL. Experimental research on ultimate strength behaviors of cracked plates under uniaxial cyclic load[J]. Ocean Engineering,2025,Vol.322:120514. (中科院1 区SCI).

[4]    Song YL, Dong Q, Zhang JP. Li GQ, Xu DF, Yang P. A prediction method for fatigue crack growth under high stress levels using accumulative plastic damage properties[J]. Marine Structures 2024; 93:103535 (中科院1 区SCI).

[5]    Song YL, Xu Z, Zhang JP, Li GQ, Yang P. Experimental study of low-cycle fatigue crack propagation in hull stiffened plates with symmetric and asymmetric cracks[J]. Ocean Engineering 2024; 299:117303 (中科院1 区SCI).

[6]    Peng ZY,Song YL, Yang P, Hu K. Stress intensity factor analysis for mixed-mode fracture behavior of inclined semi-elliptical surface crack in stiffened plate under tension load[J]. Ocean Engineering 2024; 291:116405 (中科院1 区SCI).

[7]    Song YL, Yang P, Xia T, Peng ZY, Zhang JP. The crack growth rate and crack opening displacement of EH-36 steel under low-cycle fatigue loading[J]. Ocean Engineering 2023, 280:114734 (中科院1 区SCI).

[8]    Song YL, Yang P, Hu K, Jiang W, Zhang GL. Study of low-cycle fatigue crack growth behavior of central-cracked stiffened plates[J]. Ocean Engineering 2021, 241:110083 (中科院1 区SCI).

[9]    Song YL, Yang P, Peng ZY, Xia T. Residual ultimate strength of ship cracked plates considering fatigue crack propagation under cyclic loads[J]. Ships and Offshore Structures 2022, 17(6):1403-1412 (SCI检索).

[10] Song YL, Yang P, Peng ZY. Low-cycle fatigue crack propagation behavior of cracked steel plates considering accumulative plastic strain[J]. International Journal of Steel Structures, 2020, 20(2):538-547 (SCI检索).

[11] Song YL, Yang P, Peng ZY. Low-cycle-fatigue crack closure effect of ship cracked plate considering the accumulative plastic damage[C].The38th International Conference on Ocean, Offshore and Arctic Engineering(OMAE), Glasgow, UK, 2019 (顶级学术会议EI检索).

主讲课程：

[1]    《理论力学》,授课对象: 船舶与海洋工程专业本科生.

[2]    《材料力学》,授课对象:船舶与海洋工程专业本科生.

[3]    《船舶结构强度有限元数值模拟》,授课对象:船舶与海洋工程专业本科生.

[4]    《有限元方法基本原理及其应用》,授课对象:船舶与海洋工程专业本科生.

[5]    《现代测试技术》,授课对象:船舶与海洋工程专业硕士研究生.

学术组织兼职:

[1]    Ocean Engineering, Journal of Marine Science and Technology, Journal of the Brazilian Society of Mechanical Sciences and Engineering等SCI期刊审稿人

[2]    中国造船工程学会青年工作委员会委员；造船工程学会高级会员