王芳，女，副研究员，硕士生导师，长期从事水下结构共性关键技术、海洋结构安全性和耐久性评估等方向的研究工作。担任国际期刊《Ocean Engineering》副主编、国际船舶与海洋结构大会(International Ship and Offshore Structures Congress)材料和制造组委员（曾任疲劳断裂组委员）、上海市青年科技人才协会理事、中国船舶力学学会委员、中国太平洋学会深远海资源环境管理研究分会会员、教育部学位中心通讯评议专家、国家自然科学基金委函评专家；同时担任《Ocean Engineering》、《Marine Structures》、《Thin-walled Structures》、《Ships and Offshore Structures》、《Material Science and Technology》、《International Journal of Pressure Vessels and Piping》、《Materials Science and Engineering: A》等多本国际期刊审稿人；‘International Conference of Computing for Engineering and Sciences 2011’、‘ Asian-Pacific Technical Exchange and Advisory Meeting on Marine Structures 2018’、‘International Conference on Ocean, Offshore & Arctic Engineering 2019’、‘The 12th International Symposium on Plasticity and Impact Mechanics’、‘2020中国海洋经济博览会——海洋资源开发论坛’等国际会议分会主席。近几年参与撰写英文专著1部（获国家科学技术学术著作出版基金资助），参编英文专著5部、中文专著1部。在国内外重要期刊发表学术论文100篇，其中SCI论文48篇；EI论文31篇；会议及其他论文19篇；教学论文2篇。参与撰写专利17项。

一、学习和工作经历

(1)  1998/09–2002/7，大连10bet体育移动端网站，船舶工程，学士

(2)  2002/09–2007/06，上海交通大学，船舶与海洋结构物设计制造，博士（硕博连读）

(3)  2007/07-2008/08，韩国釜山国立大学，船舶结构力学实验室，博士后

(4)  2008/09-2013/05，中国船舶重工集团公司第702研究所，高级工程师

(5)  2013/06-2020/12，上海海洋大学，海洋科学学院，深渊中心副主任，副研究员

(6)  2021/01至今，上海海洋大学，工程学院，副研究员

二、奖励荣誉

(1)  2020，上海市科技进步奖二等奖

(2)  2020，中国造船工程学会科学技术奖二等奖

(3)  2019，浦东新区科技进步奖一等奖

(4)  2019，2018年度上海海洋大学海洋科学学院优秀共产党员

(5)  2018，2018年度上海海洋大学优秀员工

(6)  2018，2017-2018年度上海海洋大学三八红旗手

(7)  2017,上海海洋大学校级青年教师讲课比赛非语言类外语教学学科组二等奖

(8)  2017，第十八届“浦东新区十大杰出青年”

(9)  2015，“领跑者5000”中国精品科技期刊顶尖学术论文

(10)2013，702所三等功

(11)2012，第十届无锡市优秀科技工作者

(12)2012，702所嘉奖

(13)2012，2011-2012年度无锡市五一巾帼标兵

三、主要项目

(1)2021.01-2024.12，大深度载人潜水器观察窗的破坏过程机理研究，国家自然科学基金面上项目，59万, 项目编号：52071203。主持。

(2)2017.01-2020.12，全海深马氏体镍钢载人球的设计和寿命计算方法研究，国家自然科学基金面上项目，62万, 项目编号：51679133。主持。

(3)2020.10.1-2021.9.30，某高强度钢舱体设计和强度分析，鞍钢股份有限公司，横向课题，80万。主持。

(4)2012.07-2015.06，深海载人舱疲劳寿命评估中的时间域裂纹扩展率模型研究，江苏省自然科学基金-青年基金项目，20万，项目编号：BK2012095。主持。

(5)2015.01-2019.12，大深度载人潜水器载人球壳的结构可靠性研究，国家自然科学基金重点项目，318万。项目编号：51439004。 排名：第3。第二负责人、主要完成人。

(6)2014.10-2016.09，载人深渊器关键技术研究与试验验证，上海市科委重点项目，1000万。项目编号：14DZ1205500。排名：第4。项目副组长，承担载人舱的关键技术研究。

(7)2015.11-2017.10，载人深渊器关键技术研究与试验验证II期，上海市科委重点项目，1350万。项目编号：15DZ1207000。排名：第4。项目副组长，承担载人舱的关键技术研究。

(8)2020.9.1-2023.8.31，6000米深海精细探测技术与装备研发及应用，上海市科委科技计划项目，500万。项目编号：20dz1206500。角色：光学仪器配套耐压舱设计和可靠性评估。

(9)2019.07-2022.06，基于多学科优化方法的全海深载人潜水器上浮下潜运动优化研究，上海市自然科学基金项目，20万。项目编号：19ZR1422700。排名：第2。承担优化方法理论研究。

(10)      2008.04-2010.12， 江苏省创新学者攀登项目“海洋结构物疲劳寿命统一方法研究”，江苏省自然科学基金，100万元。项目编号：BK2008004。排名：第2。副主办，主要完成人。

(11)      2010-2015，4500米载人潜水器设计及关键技术研究，863专项，承担材料性能的研究。

(12)      2012-2013，4500米载人潜水器载人舱用国产钛合金材料的疲劳断裂性能研究，江苏省“333高层次人才培养工程”科研项目资助项目（崔维成），主要完成人。

四、著作论文

1. 参著书籍:

(1)      崔维成，郭威，王芳，姜哲，罗高生，潘彬彬，《潜水器技术与应用》，上海科学技术出版社，2018.

(2)      Cui W.C., Huang X.P., Wang F. (2013). Towards a Unified Fatigue Life Prediction Method for Marine Structures, Zhejiang University Press and Springer. ISBN 978-7-308-10450-0 Zhejiang University Press, Hangzhou；ISBN 978-3-642-41830-3 e-ISBN 978-3-642-41831-0, Springer Heidelberg New York Dordrecht London（Obtained a funding support of total 37,000 yuan RMB from The Committee of the National Fund for Academic Publication in Science and Technology, Project No. 2010-E-088）. （国家科学技术学术著作出版基金资助，2013年11月份出版）

(3)      Cui, W.C., Wang, F., Pan, B.B., Hu, Y., Du, Q.H. (2015), Issues to be Solved in the Design, Manufacture and Maintenance of a Full Ocean Depth Manned Cabin. Chapter 1 in the Book “Advances in Engineering Research. Volume 11”, edited by Victoria M. Petrova, Nova Science Publishers.

(4)      Wang, F., Cui, W.C. (2014), Recent Development of Fatigue Crack Growth Rate Models, in the book “ Recent Trends of Fatigue Design”, edited by Ricardo Branco, Nova Science Publishers, Inc.

(5)      Cui，W.C., Wang, F. (2013), “Damage accumulation, Strain-life theories, Stress-life theories” in “Encyclopedia of Tribology”, Springer.

(6)      Cui, W.C., Wang, F. (2012), “The unified fatigue crack growth rate model” （Chapter 1）in Tang P., Zhang JL (eds), “Fatigue Crack Growth: Mechanisms, Behavior and Analysis”, NOVA Publishers.

(7)      Wang, F., Cui, W.C. (2008), “Residual Strength of Cracked Structures” (Chapter 8) in Paik JK and Melchers RE (eds), Condition Assessment of Aged Structures, Woodhead Publishing Limited，Abington Hall, Granta Park, Great Abington, Cambridge CB21 6AH, England, 2008. ISBN 978-1-84569-334-3.

2. 期刊论文:

(1)      Fang Wang，Weicheng Cui*, Recent Developments on the Unified Fatigue Life Prediction Method and its Applications, Journal of Marine Science and Engineering, 2020, 8, 427，doi:10.3390/jmse8060427. （SCI）

(2)      Fang Wang*, Minqi Wang, Wuwu Wang,Lu Yang, Xuezhong Zhang，Time-dependent axial displacement of PMMA frustums designed for deep-sea manned cabin，Ships and Offshore Structures, 2020, https://doi.org/10.1080/17445302.2020.1786235. （SCI）

(3)      Bingxiong Zhao, Fang Wang*, Wei Liu, Jian Zhang, Minqi Wang, Weicheng Cui, Failure Process Analysis of Frustum Windows for Deep-sea Manned Cabin, Ships and Offshore Structures, 2021, https://doi.org/10.1080/17445302.2020.1861709.（SCI）

(4)      Wang F., Wang W.W., Zhang Y.K., Du Q.H., Jiang Z., Cui, W. C. （2019）. Effect of Temperature and Nonlinearity of PMMA Material in the Design of Observation Windows for a Full Ocean Depth Manned Submersible. Marine Technology Society Journal. 53(1):27-36. （SCI）

(5)      Jian Zhang, Mingqiang Dai, Fang Wang*, Wenxian Tang, Xilu Zhao，Free hydroforming of egg-shaped shells and their ultimate strength to support external pressure，2020，submitted to Marine Structures. (SCI)

(6)      Wang, F., Wu, M., Tian, G.Q.,Jiang Z.,Zhang S., Zhang, J.and Cui, W.C.* (2019), Failure analysis on a collapsed flat cover of an adjustable ballast tank used in deep-sea submersibles. Applied Sciences. 9（23）:52-58.（SCI）

(7)      Jian Zhang, Chen Huang, Fang Wang*, Xilu Zhao, Wenxian Tang，Residual buckling strength of indentation-induced hemispherical shells under external pressure，2020 Submitted to  International Journal of Pressure Vessels and Piping. (SCI)

(8)      Jian Zhang, Feng Wang, Fang Wang*, Wenxian Tang, Xilu Zhao，Free bulging of thin-walled cylinders closed by two heavy plates, Ocean Engineering 223 (2021) 108646. (SCI)

(9)      Jian Zhang, Zhenyang Zhu, Fang Wang*, Xilu Zhao, Yongmei Zhu, Buckling of double-layer and single-layer stainless steel cylinders under external pressure, Thin–Walled Structures 161 (2021) 107485. （SCI）

(10)  Jian Zhang, Mingqiang Dai, Fang Wang*, Wenxian Tang, Xilu Zhao, Yongmei Zhu, Theoretical and experimental analyses of the free hydroforming of egg-shaped shell, Ships and Offshore Structures, 2020, https://doi.org/10.1080/17445302.2020.1827637 . （SCI）

(11)  Yongmei Zhu, Junjie Chen, Wenxian Tang, Weicheng Cui, Xiaorong Wang, Fang Wang*, Baoji Yin, Fatigue and corrosion fatigue of 18Ni maraging steel. Arch. Metall. Mater. 66 (2021), 2, 381-390. （SCI）

(12)  Jian Zhang, Xin Wang, Wenxian Tang, Fang Wang*, Yongmei Zhang, Non-linear collapse behavior of externally pressurized resin toroidal and cylindrical shells: numerical and experimental studies. Ships and Offshore Structures. 2020. https://doi.org/10.1080/17445302.2020.1745546. （SCI）

(13)  Jian Zhang, Xin Wang, Wenxian Tang,Fang Wang*, Baoji Yin, Experimental and numerical buckling analysis of toroidal shell segments under uniform external pressure. Thin-walled Structures.2020, 150.106689.（SCI）

(14)  Zhang J., Tan J.W., Tang W.X., Wang F.*, Zhao X.L. (2019). Collapse performance of externally pressurized resin egg-shaped shells with corrosion thinning. International Journal of Pressure Vessels and Piping. 177:1-13.（SCI）

(15)  Zhang, J., Zhang, Y.W., Wang, F.*, Zhu, Y.M. et al. (2019). Experimental and numerical studies on the buckling of the hemispherical shells made of maraging steel subjected to extensively high external pressure. International Journal of Pressure Vessels and Piping. 172:56-64.（SCI）

(16)  Wang, F., Zhang, S.J., Yu, S., Du, Q.H., Zhang, J., & Jiang, Z., Cui W.C.(2019). Design and analysis on a model sphere made of maraging steel to verify the applicability of the current design code. Ships & Offshore Structures，14(1),86-94.（SCI）

(17)  Wang, F., Wang, K., Cui, W. C.(2015), A simplified life estimation method for the spherical hull of deep manned submersibles，Marine Structures，44：159-170. （SCI）

(18)  Wang, F. , Kee Paik, J. , Ju Kim, B. , Cui, W. , Hayat, T. , & Ahmad, B. . (2015). Ultimate shear strength of intact and cracked stiffened panels. Thin-Walled Structures, 88, 48-57. （SCI）

(19)  Wang, F., Cui, W. C.(2015), Experimental investigation on dwell-fatigue property of Ti–6Al–4V ELI used in deep-sea manned cabin，Materials Science and Engineering: A，642：136-141. （SCI）

(20)  Wang, F. , Cui, W. , Pan, B. , Shen, Y. , & Huang, X. . (2014). Normalised fatigue and fracture properties of candidate titanium alloys used in the pressure hull of deep manned submersibles. Ships and Offshore Structures, 9(3), 297-310. （SCI）

(21)  Wang, F. , Pan, B. , Shen, Y. , & Cui, W.C. (2014). On fracture resistance parameter from non-standard fracture test specimens of titanium alloy. Ships and Offshore Structures, 9(2), 177-185. （SCI）

(22)  Chen F.L.,Wang F.* and Cui, W.C. (2011), An Improved Constitutive Model to Predict Fatigue Crack Growth Rate under Variable Amplitude Loading with Single and Multiple Overload, Journal of Engineering for the Maritime Environment,  225(3): 271-281.  （SCI）

(23)  Wang, F. , Cui, W. （2010），Effect of three dimensional stress state on unstable fracture condition and crack opening level in a new crack growth model，Acta Metallurgica Sinica (English Letters)，2010，23（1）：41-49. （SCI）

(24)  Wang, F. , Cui, W. (2010)，On the engineering approach to estimating the parameters in an improved crack growth rate model for fatigue life prediction，Ships and Offshore Structures，5（3）：227-241. （SCI）

(25)  Wang, F. , Cui, W. ，Paik, J.K. (2009) ，Residual ultimate strength of structural members with multiple crack damage，Thin-Walled Structures，47（12）：1439-1446. （SCI）

(26)  Wang, F. , Cui, W. (2009)，Approximate method to determine the model parameters in a new crack growth rate model，Marine Structures，22（4）：744-757. （SCI）

(27)  Wang, F. , Cui, W. (2008)，Analysis on the effective position of a reinforcement patch used as crack arrest for plates with mixed-mode (I/II) cracks，Proceedings of the Institution of Mechanical Engineers - Part M:Journal of Engineering for the Maritime Environment，222（M4）：219-227. （SCI）

(28)  Zhang, J. , Li, S. , Cui, W. , Xiang, K. , Wang, F. , & Tang, W. . (2020). Buckling of multiple intersecting spherical shells. Journal of Marine Science and Application, 1-8. https://doi.org/10.1007/s11804-020-00168-w.（SCI）

(29)  Zhe Hu, Xiaoying Zhang, Weicheng Cui, Fang Wang, Xiaowen Li, Yan Li (2020), A simple method of depressing numerical dissipation effects during wave simulation within the Euler model, Acta Oceanologica Sinica, 39(1): 141-156.（SCI）

(30)  Xiaoying Zhang, Zhe Hu, Weicheng Cui, Fang Wang, A tension instability free smoothed particle hydrodynamics (SPH) method applied to elastic solid mechanics, Journal of the Chinese Society of Mechanical Engieers. 2019年录用, 2020年发表. （SCI）

(31)  Zhang,X.Y.,Hu, Z., Cui, W.C., Wang,F. (2019).On Numerical Stability of SPH Method in Solving 3D Elastic Solid Problems. Naval Engineers Journal, 131(3),131-143.（SCI）

(32)  Zhang, J., Zhang, S., Cui, W.C., Zhao, X.L., Tang, W.X., Wang, F. (2019). Buckling of circumferentially corrugated cylindrical shells under uniform external pressure, Ships and Offshore Structures, 14(8), 879-889. （SCI）

(33)  Zhang, J. , Hua, Z. , Wang, F. , & Tang, W. . (2019). Buckling of an egg-shaped shell with varying wall thickness under uniform external pressure. Ships and Offshore Structures, 14(6),559-569. （SCI）

(34)  Zhang, J., Zhang, M., Cui, W., Tang, W., Wang, F., & Pan, B. (2018). Elastic-plastic buckling of deep sea spherical pressure hulls. Marine Structures, 57, 38-51. （SCI）

(35)  Zhang, J., Wang, W. M., Cui, W. C., Tang, W. X., Wang, F., & Chen, Y. (2018). Buckling of longan-shaped shells under external pressure. Marine Structures, 60, 218-225. （SCI）

(36)  Zhang, J., Wang, W., Wang, F., Tang, W., Cui, W., & Wang, W. (2018). Elastic buckling of externally pressurized cassini oval shells with various shape indices. Thin-Walled Structures, 122, 83-89. （SCI）

(37)  Zhang, Y.K., Huang, X.P., Wang, F. (2018),Fatigue crack propagation prediction for marine structures based on a spectral method. Ocean Engineering,163,706-717. （SCI）

(38)  Zhang, M. , Tang, W. , Wang, F. , Zhang, J. , Cui, W. , & Chen, Y. . (2017). Buckling of bi-segment spherical shells under hydrostatic external pressure. Thin-Walled Structures, 120, 1-8. (SCI)

(39)  Zhang, J. , Zhu, B. , Wang, F. , Tang, W. , Wang, W. , & Zhang, M. . (2017). Buckling of prolate egg-shaped domes under hydrostatic external pressure. Thin-Walled Structures, 119, 296-303.(SCI)

(40)  Zhang, J., Wang, M.L., Cui, W.C., Wang, F., Hua, Z.D., Tang, W.X. (2017). Effect of thickness on the buckling strength of egg shaped pressure hulls. Ships and Offshore Structures. 1-10. (SCI)

(41)  Wang, K., Wang, F. & Cui,W.C. (2016). Comments and replies on the paper ‘Prediction of short fatigue crack growth of Ti–6Al–4V’, FFEMS, 2014, 37, 1075–1086, by K. Wang, F. Wang, W. Cui, T. Hayat and B. Ahmad, Fatigue Fract Engng Mater Struct, 2016, 39, 1173–1176.   （SCI）

(42)  Cui, W., Hu, Y., Guo, W., Pan, B., & Wang, F. (2014). A preliminary design of a movable laboratory for hadal trenches. Methods in Oceanography, 9, 1-16. （SCI）

(43)  Cui, W., Hu, Y., Guo, W., Pan, B., & Wang, F. (2014). Reprint of A preliminary design of a movable laboratory for hadal trenches. Methods in Oceanography, 10, 178-193.（SCI）

(44)  Wang K., Wang F., Cui W.C., et al.(2015). Prediction of cold dwell-fatigue crack growth of titanium alloys. Acta Metallurgica Sinica (English Letters): Volume 28, Issue 5, Page 619-627. （SCI）

(45)  Wang K.,Wang, F. , Cui, W. , HAYAT T. and AHMAD B. (2014). Prediction of short fatigue crack growth of Ti-6Al-4V, Fatigue &Fracture of Engineering Materials & Structures, Vol. 37,1075–1086. （SCI）

(46)  Chen F.L., Wang, F. and Cui, W.C. (2012). Fatigue life prediction of engineering structures subjected to variable amplitude loading using the improved crack growth rate model. Fatigue Fract Engng Mater Struct, 35(3): 278-290. （SCI）

(47)  Cui W.C., Wang F. and Huang X.P. (2011), A Unified Fatigue Life Prediction (UFLP) Method for Marine Structures, Presented in the workshop at DTU to honor prof. Preben Terndrup Pedersen's 70th birthday, Oct. 29,2010 and MARINE STRUCTURES，Vol.24, No.2, 153-181.  （SCI）

(48)  Wang, Y.F., Cui, W.C., Wu, X.Y., Wang, F., Huang, X.P.(2008). The extended McEvily model for fatigue crack growth analysis of Metal Structures, International Journal of Fatigue, 30: 1851–1860. （SCI）

(49)  Mian Wu, Fang Wang*, Ruilong Luo, Crack evaluation of an ultra-high-pressure chamber used for deep-sea environment simulation,  Journal of Ship Mechanics, 2020年录用. （EI）

(50)  于爽, 胡勇, 王芳*, 杨青松, & 崔维成. (2019). 全海深载人潜水器超高强度钢制载人球壳的极限强度分析与模型试验. 船舶力学(1), 51-57.（EI）

(51)  Wang, F., Jiang, Z, Cui, W.C.（2018), Low-cycle dwell-fatigue life and failure mode of a candidate titanium alloy material TB19 for full-ocean-depth manned cabin, Journal of Ship Mechanics, Vol.22, No.6, pp.727-735. （EI）

(52)  Zhang S.J., Wang, F.*, Cui, W. C.，(2018).  Fatigue Crack Growth Properties of 18Ni(250) and 18Ni(350) Used for Full-Ocean-Depth Pressure Hull，Journal of Ship Mechanics.22（12）：1540-1548.（EI）

(53)  王芳,杨青松,胡勇,崔维成(2018).全海深载人潜水器载人舱缩比结构模型试验研究.中国造船，59（2），62-71.（EI）

(54)  Wang, F., Wang, Y.Y., Cui, W.C., (2016). Prediction of crack growth rates of a high strength titanium alloy for deep sea pressure hull under three loading patterns, Journal of Ship Mechanics, Vol.20, No.6, pp.699-709. （EI）

(55)  Wang, F., Yong, H. U., & Cui, W. C. (2016). Preliminary evaluation of maraging steels on its application to full ocean depth manned cabin.Journal of Ship Mechanics. 20(12):1557-1572.（EI）

(56)  Wang, F. , Cui, W.C. (2014). Effect of plastic zone size induced by a single dwell overload on the fatigue crack growth rate under cyclic loading. Journal of Ship Mechanics, Vol.18, No.9, 1117-1128.（EI）

(57)  Wang, F. , Cui, W.C., Shen Y.S., Pan B.B. (2012). Analysis on fracture toughness test results of candidate titanium alloys used in deep manned submersibles, Journal of Ship Mechanics, Vol.16, No.9, 1056-1063. （EI）

(58)  Wang, F. , Cui, W.C. and Huang X.P. (2011). Evaluation of surface crack shape evolution using the improved fatigue crack growth rate model, Journal of Ship mechanics, Vol.15, No.6, 660-668. （EI）

(59)  Wang F., Chen F.L., Cui W.C. (2010). Applicability of the improved crack growth rate model and its parameters estimation method, Journal of Ship Mechanics, Vol.14, No.3, 252-262. （EI）

(60)  Wang F., Han Y., Cui W.C. (2007), Residual Tensile Strength Analysis of Stiffened Ductile Panels with Crack, Journal of Ship Mechanics, 11(3), 383-395.（EI）

(61)  Wang F., Cui W.C. (2006), Parametric Finite Element Analysis of the Ultimate Strength of Through-thickness Cracked Plates, Journal of Ship Mechanics, 10(6), 76-93. （EI）

(62)  Wang F., Liu Q., Huang X.P., Cui W.C. (2006), Ultimate Fracture Strength Analysis of Thin Rectangular Plate with Inclined Center Crack, Journal of Ship Mechanics, 10(3), 92-100.（EI）

(63)  王芳，黄小平，崔维成（2006），具有中心穿透裂纹缺陷的矩形板极限拉伸强度分析，中国造船，47(1), 12-18.（EI）

(64)  Wang F., Huang X.P., Cui W.C. (2005), Stress intensity factor and ultimate tensile strength analysis of eccentrically cracked plates, Journal of Ship Mechanics, 9(3), 97-110. （EI）

(65)  Wang F., Zhang X.Z., Jiang Z., Cui W.C.,On calculating the crack growth within a single load-dwell-unload cycle for metal structures, Proceedings of the ASME 2019 38th International Conference on Ocean, Offshore and Arctic Engineering OMAE2019 June 9-14, 2019, Glasgo, UK.（EI）

(66)  Yunsheng Shen, Fang Wang, Changlu Tian, Collapse Analysis on Model Sphere of Titanium Manned Cabin under External Pressure, Journal of Ship Mechanics, 2020年录用. （EI）

(67)  Lu Chen, Fang Wang, Weicheng Cui, Jing Xie (2019), Effective Elastic Modulus Characteristics of Buoyancy Materials of Full Ocean Depth Manned Submersible. Accepted by Journal of Ship Mechanics.23(12):1486-1500. （EI）

(68)  郭大猷，黄小平，王芳（2019），有机玻璃观察窗的蠕变特性及数值分析.上海交通大学学报，53（5），513-520。（EI）

(69)  Zhang, J. , Zhang, Y.W. , WangF. , Xi-Lu, Z. , Cui,W.C. , & Zhu, Y.M. (2018). Strength characteristics of maraging steel spherical pressure hulls for deep manned submersibles. Journal of Ship Mechanics.22（12）：1509-1526.（EI）

(70)  徐磊, 黄小平, & 王芳. (2017). 焊接残余应力对深潜器耐压球壳承载能力的影响. 船舶力学, 21(7), 864-872.（EI）

(71)  Li, H., Wang, F. &Cui, W.C. (2017). Structural design exploration on double intersecting spheres manned pressure hull of full ocean depth. Journal of Ship Mechanics, 21(9), 1160-1169.（EI）

(72)  Wang, Y.Y., Wang, F., Cui, W.C., (2016). Fatigue Reliability Analyses considering short crack and dwell time effects, Journal of Ship Mechanics, Vol.20, No.6, pp.710-721. （EI）

(73)  Wang, Y.Y., Wang, F., Cui, W.C., (2016). Fatigue Reliability Analysis for the manned cabin of deep manned submersibles Based on the Unified Fatigue Life Prediction Method, Journal of Ship Mechanics, Vol.20, No.3, pp.335-347. （EI）

(74)  Wang K., Wang F., Cui W., et al. (2014). Prediction of Short Fatigue Crack Life by Unified Fatigue Life Prediction Method. Journal of ship Mechanics,18(6):678-689.（EI）

(75)  王珂, 王芳, 崔维成. 钛合金室温保载-疲劳裂纹扩展预报方法及其对 Ti-6242 的适应性研究. 船舶力学, 2013, 17(11): 1309-1317. （EI）

(76)  Chen F.L., Wang F., Cui W.C. (2010), Applicability of the improved crack growth rate model for a wide range of alloys under constant amplitude load, Journal of Ship mechanics, Vol.14, No.12, 1349-1360. （EI）

(77)  刘道启，胡勇，王芳，田常录，崔维成（2010），载人深潜器观察窗的力学性能，船舶力学，14（7），782-788. （EI）

(78)  刘强，王芳，黄小平(2006). 裂纹尖端塑性区三维有限元分析. 舶舶力学, 10(6), 90-99. （EI）

(79)  Cui W.C., Wang F. (2010), Towards a unified fatigue life prediction (UFLP) method for marine structures: and overview, Proceedings of the ASME 2010 29th International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2010, June 6-11, Shanghai, China. (EI)

(80)  丁健，王芳*，罗高生，姜哲，张建（2020）.基于ROS的深海机械臂运动规划［J］.船舶工程，投递。

(81)  张学忠，王芳*，杨露，王旻琦（2020）.小时间域裂纹扩展模型的可靠性分析［J］.船舶工程，投递。

(82)  杨露，王芳*，王雾雾，王旻琦，张学忠（2019）. 大深度载人舱长期寿命评估中的影响因素［J］. 中国舰船研究.14(s2):39-46.

(83)  Yang L,Wang F*,Wang W W, Wang Minqi, Zhang X Z(2019).Influential factors to be considered for a tentative long-term service life assessment method for deep-sea manned cabins[J/OL].Chinese Journal of ShipResearch,14(Supp 2):43-52.

(84)  Wang F., Wang M.Q., Wang W.W., Jiang Z., Cui W.C., Time-dependent deformation behavior of PMMA frustums designed for deep-sea manned cabin,12th International Symposium on Plasticity and Impact Mechanics, being held in Busan, 2019. 9.28-10.4.

(85)  Wang, F., Wang, W.W., Cui, W. C.（2018）.Influential factors to be considered for a tentative long-term service life assessment method of the deep-sea manned cabins. TEAM 2018, Oct. 15 - 18, 2018, Wuhan, China.

(86)  Wang, F., Hu, Y., Wang, Y.Y., Lu, Z.Q., Du, Q.H., Cui, W.C., Life assessment procedure of PMMA viewport in full-ocean-depth manned submersible, 1st International Conference on Ships and Offshore Structures (ICSOS), Hamburg, Germany, Aug.31-Sep.2. 2016.

(87)  王芳, 王莹莹, 王珂, 崔维成,(2016). 钛合金深潜器载人舱疲劳寿命预报方法研究进展. 钛工业进展, 33(4), 1-6.

(88)  Wang, F., Cui, W. C., Wang, Y. Y., & Shen, Y. S. (2015). Overload and dwell time effects on crack growth property of high strength titanium alloy TC4 ELI used in submersibles. Analysis and Design of Marine Structures V, 233 (International Conference).

(89)  Wang, F., Cui, W. C., Model Test and Collapse Simulation of Titanium Manned Spherical Hull under External Pressure, Proceedings of the ICTWS 2014 7th International Conference on Thin-Walled Structures ICTWS2014, Sep.28-Oct.2,Busan,Korea.

(90)  Wang, F., Cui, W. C., Wang, Y. Y., & Shen, Y. S. (2015). Overload and dwell time effects on crack growth property of high strength titanium alloy TC4 ELI used in submersibles. Analysis and Design of Marine Structures V, 233.

(91)  Cui, W.C., Wang, F. and Huang, X.P. (2010). Towards a Unified Fatigue Life Prediction (UFLP) Method for Marine Structures: An Overview, Presented at Alaa E. Mansour Symposium on Ship and Offshore Structural Design, Proceedings of the ASME 29th International Conference on Offshore Mechanics and Arctic Engineering, OMAE2010-21007, 6-11 June 2010, Shanghai, China.

(92)  Cui W.C., Wang F. (2010), On Determination of Parameters of the Unified Fatigue Crack Growth Rate Model from Tensile Test Data, 11th International Symposium on Practical Design of Ships and Other Floating Structures, Sep.19-25, Rio de Janeiro, RJ, Brazil.

(93)  李景阳, 崔维成,王芳（2009），中心穿透裂纹板在复杂载荷作用下的剩余极限强度分析，舰船科学技术，8, 44-50.

(94)  Wang F., Cui W.C., Huang X.P., Pan B.B., Shen Y.S. (2012), On damage-tolerant properties test and predictions of titanium alloys used in the pressure hull of manned submersibles, ICTAM2012, 19-24 August, Beijing, China.

(95)  Wang F., Chen F.L., Huang X.P., Cui W.C.(2011), An Introduction to a Unified Fatigue Life Prediction (UFLP) Method for Marine Structures, NAVY AND SHIPBUILDING NOWADAYS 2011, June 30-July 1, St.Petersburg, Russia.

(96)  Wang F., Chen F.L., Pan B.B., Cui W.C. (2009), Transformation of different types of material test data to crack growth curve expressed by the improved crack growth rate model,中国造船工程学会学术论文集，2009年船舶结构力学学术会议暨中国造船学术界进入ISSC 30年纪念会，9-19，9月，中国南京。

(97)  Wang F., Cui W.C. (2012), On the development of a Unified Fatigue Life Prediction (UFLP) Method for Marine Structures, BV Worshop, Paris, France.

(98)  王芳、黄小平、崔维成（2005），具有穿透裂纹缺陷的T型管节点在撑管轴向压力作用下的极限强度分析（英文），船舶结构力学学术会议，116-128, 9月，中国舟山。

(99)  王芳*、杜青海、崔维成(2018)，《理论力学》全英文课程建设和教学实践中的思考，教育教学论坛，37，215-217。

(100)             王芳、胡松*（2020），疫情期间在线海洋科学前沿讲座课程的实践和经验，中国地质教育，投递。

六、专利：

(1)  丁健、罗高生、王芳、姜哲、罗瑞龙、王彪,一种深海紧凑型液压阀组的功能位模块,实用新型,ZL201922463485.9,2020-08-07;

(2)  姜哲、王芳、孙涛、罗瑞龙、张锦飞、崔维成,一种用于深水浮式平台的机械与焊接组合连接节点,实用新型,ZL201920012535.9,2019-09-17;

(3)  罗高生、罗瑞龙、陈鹿、姜哲、王芳、孙鹏飞,一种叶片式摆动油缸结构,实用新型,ZL201821700109.6,2019-08-02;

(4)  张建、张猛、崔维成、唐文献、王芳、潘彬彬、朱咏梅、苏世杰,一种钛合金潜水器耐压球壳极限承载能力估算方法,发明专利,ZL2017102336307,2019-07-16

(5)  张建、张猛、王芳、唐文献、崔维成、张悦文、朱俊臣、潘彬彬，一种高强度钢潜水器耐压球壳极限承载能力估算方法,发明专利,ZL2017102329498,2019-06-21;

(6)  张建、王月阳、王芳、张猛、崔维成、唐文献、杨青松、胡勇，分离式潜水器耐压壳卡箍自动锁紧装置及采用该锁紧装置的潜水器耐压壳，发明专利,ZL201710225008.1,2019-02-15

(7)  罗瑞龙、张锦飞、王芳、宋婷婷、崔维成,一种用于应急抛载的装置,实用新型，ZL201820872854.2,2018-12-18

(8)  罗高生、姜哲、王彪、王芳、罗瑞龙、马振玲,一种浮力调节柱塞泵装置,实用新型,ZL201820517536.4,2018-11-06

(9)  罗高生、郭威、王彪、王芳、姜哲、孙鹏飞,一种浮力调节海水柱塞泵用的驱动系统,实用新型,ZL201820526186.8,2018-10-30

(10)胡勇、崔维成、潘彬彬、王芳,救生钟斜角对接救生钢缆调节器,发明专利，ZL201410164033.X,2018-10-26

(11)罗高生、王芳、罗瑞龙、王彪、郭威、马振铃,一种6自由度控制手柄,实用新型,ZL201820378956.9,2018-10-23

(12)张建，杭卫，杨青松，唐文献，崔维成，王芳，张猛，彭伟，朱永梅,双半球合拢式耐压舱的密封结构及基于其的双半球合拢式耐压舱,发明专利,ZL2017102245168,2018-08-24

(13)胡勇、崔维成、郭威、王芳、潘彬彬,深海潜水器压载抛弃装置,发明专利，ZL201410163451.7,2017-11-24

(14)姜哲、崔维成、王芳、宋婷婷,临时固定装置,实用新型,ZL201520591765.7,2016-03-30

(15)姜哲、崔维成、王芳、宋婷婷,桁架式采油平台,实用新型,ZL201520390664.3,2015-10-07

(16)胡勇、崔维成、潘彬彬、王芳,救生钟斜角对接救生钢缆调节器,实用新型,ZL201420198085.4,2014-10-01

(17)胡勇、崔维成、郭威、王芳、潘彬彬,具有升沉补偿和张力保护功能的缆控潜水器甲板吊放系统,实用新型,ZL201420198106.2,2014-09-17

联系方式：wangfang@shou.edu.cn