[1] 高卓,汤伟江,朱云周,等.微细光缆在水下航行器中的应用及关键技术综述[J].水下无人系统学报,2017,25(5):385-395. GAO Z, TANG W J, ZHU Y Z, et al. Overview of applications of fiber optic micro-cable in undersea vehicle and key technologies[J]. Journal of Unmanned Undersea Systems, 2017, 25(5): 385-395. (in Chinese) [2] 李一平,李硕,张艾群.自主/遥控水下机器人研究现状[J].工程研究——跨学科视野中的工程,2016,8(2):217-222. LI Y P, LI S, ZHANG A Q. Research status of autonomous & remotely operated vehicle[J]. Journal of Engineering Studies, 2016, 8(2): 217-222. (in Chinese) [3] MA C J, REN L Y, QU E S, et al. Modeling and testing of static pressure within an optical fiber cable spool using distributed fiber Bragg gratings[J]. Optics Communications, 2012, 285(24): 4949-4953. [4] 胡君良,马恒坚,崔得东.制导光缆线包中光缆受力分析与线轴设计[J].光通信研究,1997(3):35-39. HU J L, MA H J, CUI D D. Force analysis on optical fiber cable in the control and guide cable pack and design of spool[J]. Study on Optical Communications,1997(3):35-39.(in Chinese) [5] 胡君良,马恒坚,崔得东.制导光缆线包光附加损耗分析与计算[J].应用光学,1998,19(6):44-47. HU J L, MA H J, CUI D D. Analysis and calculation of excess loss about the control and guide cable pack[J]. Journal of Applied Optics,1998,19(6):44-47.(in Chinese) [6] BAKAIYAN H, HOSSEINI H, AMERI E. Analysis of multi-la-yered filament-wound composite pipes under combined internal pressure and thermomechanical loading with thermal variations[J]. Composite Structures,2009,88(4):532-541. [7] ANSARI R, ALISAFAEI F, GHAEDI P. Dynamic analysis of multi-layered filament-wound composite pipes subjected to cyclic internal pressure and cyclic temperature[J]. Composite Structures,2010,92(5):1100-1109. [8] LIU C, SHI Y Y. Design optimization for filament wound cylindrical composite internal pressure vessels considering process-induced residual stresses[J]. Composite Structures,2020,235:111755. [9] BOUHAFS M, SEREIR Z, CHATEAUNEUF A. Probabilistic analysis of the mechanical response of thick composite pipes under internal pressure[J]. International Journal of Pressure Vessels and Piping,2012,95:7-15. [10] 吴杨,邢静忠,耿沛,等.考虑纤维体积含量变化的纤维缠绕厚壁柱形结构的等强度设计[J].复合材料学报,2015,32(3): 789-796. WU Y, XING J Z, GENG P, et al. Constant strength design of filament wound thick-walled cylindrical structure considering variation of fiber volume content[J]. Acta Materiae Compositae Sinica,2015,32(3):789-796.(in Chinese) [11] ZU L, XU H, ZHANG B, et al. Design of filament-wound composite structures with arch-shaped cross sections considering fiber tension simulation[J]. Composite Structures,2018,194:119-125. [12] GHASEMI A R, ASGHARI B, TABATABAEIAN A. Determination of the influence of thermo-mechanical factors on the residual stresses of cylindrical composite tubes: experimental and computational analyses[J]. International Journal of Pressure Vessels and Piping,2020,183:104098. [13] 李博,熊超,殷军辉,等.多角度交替缠绕复合圆筒的剩余应力算法及水压试验[J].复合材料学报,2018,35(6):1452-1463. LI B, XIONG C, YIN J H, et al. Residual stress algorithm for composite cylinder with alternate multi-angle winding layers and water-pressure test[J]. Acta Materiae Compositae Sinica, 2018,35(6):1452-1463.(in Chinese) [14] JIA M, YANG G L. Research of optical fiber coil winding model based on large-deformation theory of elasticity and its application[J]. Chinese Journal of Aeronautics,2011,24(5):640-647. [15] 孟照魁,张春熹,杨远洪,等.光纤环绕制过程中的张力分析[J].北京航空航天大学学报,2005,31(3):307-310. MENG Z K, ZHANG C X, YANG Y H, et al. Analysis of stress in winding fiber-optic ring[J]. Journal of Beijing University of Aeronautics and Astronautics, 2005,31(3):307-310.(in Chinese) [16] 温泽强,杨瑞峰,贾建芳.基于键合图的光纤环绕制小张力控制结构的建模和仿真[J].测控技术,2012,31(3):119-127. WEN Z Q, YANG R F, JIA J F. Building and simulating the model of the tension control during winding a fiber optic sensor coil based on the bond graph[J]. Measurement & Control Technology,2012,31(3):119-127.(in Chinese) [17] 严兵,姚海.浮式起重机篱笆式卷筒的结构强度及稳定性分析[J].船舶工程,2012,34(增刊2):204-208. YAN B, YAO H. Study on strength and stability of LeBus grooved drum applied in offshore crane[J]. Ship Engineering,2012,34(S2):204-208.(in Chinese) [18] 朱洪军,鲁聪达,刘健.篱笆式卷筒结构的动态特性研究[J].船舶工程,2013,35(2):51-58. ZHU H J, LU C D, LIU J. Study on dynamic characteristics of LeBus grooved drum structure[J].Ship Engineering,2013,35(2): 51-58.(in Chinese) [19] 龚宪生,罗宇驰,吴水源.提升机卷筒结构对多层缠绕双钢丝绳变形失谐的影响[J].煤炭学报,2016,41(8):2121-2129. GONG X S, LUO Y C, WU S Y. Effect of drum structure of mine hoist on multilayer winding and multipoint lifting ropes' discordance[J]. Journal of China Coal Society,2016,41(8):2121-2129. (in Chinese) [20] MATTHIJSSE P, GRIFFIOEN W. Matching optical fiber lifetime and bend-loss limits for optimized local loop fiber storage[J]. Optical Fiber Technology, 2005, 11(1):92-99.
|