《中国舰船研究》2018年第4期目录

《中国舰船研究》编辑部

《中国舰船研究》编辑部. 《中国舰船研究》2018年第4期目录[J]. 中国舰船研究, 2018, 13(4).
引用本文: 《中国舰船研究》编辑部. 《中国舰船研究》2018年第4期目录[J]. 中国舰船研究, 2018, 13(4).
Chinese Journal of Ship Research. Contens of CJSR 2018, Vol.13, No.4[J]. Chinese Journal of Ship Research, 2018, 13(4).
Citation: Chinese Journal of Ship Research. Contens of CJSR 2018, Vol.13, No.4[J]. Chinese Journal of Ship Research, 2018, 13(4).

《中国舰船研究》2018年第4期目录

Contens of CJSR 2018, Vol.13, No.4

知识共享许可协议
《中国舰船研究》2018年第4期目录《中国舰船研究》编辑部,采用知识共享署名4.0国际许可协议进行许可。
  • 摘要: [1]结构噪声核心价值与理论逻辑解读第二部分:阻振质量与复杂巨系统…吴崇建,蔡大明,朱英富(1)[2]冰载荷和纵倾角对螺旋桨强度的影响…常欣,李鹏,王超,叶礼裕(7)[3]石墨烯增强铝基SiC复合材料抗侵彻机理试验与数值仿真…计晨,李素云(16)[4]船体大破口损伤下总纵极限剩余承载能力计算…韩正君,赵耀(24)[5]大型客滚船舱段屈曲和疲劳强度直接计算…何丽丝,王德禹(33)[6]船舶典型节点弯曲载荷作用下极限强度试验研究…王晓强,胡耀愚,严仁军(41)[7]规则波浪中舰船摇荡耦合切片计算方法…朱军,夏齐强,王智宇,朱韬,黄昆仑,葛义军(49)[8]声呐导流罩边界层壁面脉动压力研究进展…徐嘉启,梅志远(57)[9]基于改进云重心方法的舰船设计方案质量评估…王广强,吕建伟,徐一帆,谢宗仁(70)[10]基于STAR-CCM+的小水线面三体船阻力数值仿真…张明霞,韩兵兵,卢鹏程,赵正彬(79)[11]铺管船运动响应及对铺设管线的耦合作用…王玉红,李磊,张兆德,郭远志(86)[12]居住舱室空气环境舒适性数值分析…亓海青,李志印,周立华(93)[13]基于极短期运动预报的舰载机着舰过程仿真分析…杨柳,徐东昊(99)[14]斜流轴流组合式多级压气机气动设计与流场数值模拟…张晓阳,陈镟宇,李良才,任焕(104)[15]纵向减振推力轴承液压减振系统的热平衡性能分析…陈繁,李天匀,赵耀,朱翔(111)[16]环形线圈退磁设施的电磁设计和试验…郭成豹,周炜昶(120)[17]基于BP神经网络的船舶主机能效状态评估…陈伟南,黄连忠,张勇,路通(127)[18]基于差分进化算法的船舶能量管理系统优化策略…杨泽鑫,肖健梅,王锡淮,邓军(134)[19]基于变论域模糊方法的电力推进船舶二次调频控制…李洪跃,王锡淮,肖健梅(142)[20]舰船能量管理系统中的VxWorks可视化技术…华逸飞,李维波,方雄伟,许智豪,徐聪,员钦生(149)[21]某舰用安全监控系统模拟训练软件的设计与实现…杜一村,杨晨,李玉峰(155)
    Abstract: [1] Core value and theoretical logic of structure-borne noise.Part 2:blocking mass and complex huge systems…WU Chongjian,CAI Daming,ZHU Yingfu(1)[2] Effect of ice-load and trim angle on the strength of propeller… CHANG Xin,LI Peng,WANG Chao,et al (7)[3] Test and numerical simulation of anti-penetration mechanism for reinforced aluminum matrix SiC composites… JI Chen,LI Suyun(16)[4] Calculation of longitudinal residual capacity of ship with large crevasse…HAN Zhengjun,ZHAO yao(24)[5] Direct calculation of buckling and fatigue strength of large Ro-Ro ship section…HE Lisi,WANG Deyu(33)[6] Experimental study on ultimate strength of typical ship brackets under bending load… WANG Xiaoqiang,HU Yaoyu,YAN Renjun(41)[7] Strip calculations for ship oscillation coupled response in regular waves… ZHU Jun,XIA Qiqiang,WANG Zhiyu,et al (49)[8] Research progress in sonar dome turbulent boundary layer wall fluctuating pressure… XU Jiaqi,MEI Zhiyuan(57)[9] Quality evaluation of design alternatives of vessel based on improved cloud barycenter method… WANG Guangqiang,LV Jianwei,XU Yifan,et al (70)[10] Numerical simulation for resistance of trimaran small waterplane area center hull based on STAR-CCM+…ZHANG Mingxia,HAN Bingbing,LU Pengcheng,et al (79)[11] Motion response of pipe-laying vessel and its coupling interaction on pipelines… WANG Yuhong,LI Lei,ZHANG Zhaode,et al (86)[12] Numerical analysis of air environment comfort in ship accommodation cabin… QI Haiqing,LI Zhiyin,ZHOU Lihua(93)[13] Aircraft carrier landing process simulation based on extremely short-term prediction of ship motion…YANG Liu,XU Donghao(99)[14] Aerodynamic design and numerical simulation of mixed-axial flow multi-stage compressor…ZHANG Xiaoyang,CHEN Xuanyu,LI Liangcai,et al (104)[15] Analysis of heat balance of piston hydraulic damper system installed on thrust bearing… CHEN Fan,LI Tianyun,ZHAO Yao,et al (111)[16] Magnetic design and testing of demagnetization facility with ring-shaped coil…GUO Chengbao,ZHOU Weichang(120)[17] Evaluation of main engine energy efficiency based on BP neural network…CHEN Weinan,HUANG Lianzhong,ZHANG Yong,et al (127)[18] Optimization strategy of ship energy management system based on differential evolution algorithm… YANG Zexin,XIAO Jianmei,WANG Xihuai,et al (134)[19] Electric propulsion ship secondary frequency control based on variable universe fuzzy method… LI Hongyue,WANG Xihuai,XIAO Jianmei (142)[20] Visual design technology of VxWorks adopted in ship energy management system…HUA Yifei,LI Weibo,FANG Xiongwei,et al (149)[21] Design and implementation of simulation training software for naval security monitoring system… DU Yicun,YANG Chen,LI Yufeng(155)
  • [1] 吴崇建,蔡大明,朱英富. 结构噪声核心价值与理论逻辑解读第二部分:阻振质量与复杂巨系统[J]. 中国舰船研究,2018,13(4):1-6,32. WU C J,CAI D M,ZHU Y F. Core value and theoretical logic of structure-borne noise. Part 2:blocking mass and complex huge systems[J]. Chinese Journal of Ship Research,2018,13(4):1-6,32.
    [2] 常欣,李鹏,王超,等. 冰载荷和纵倾角对螺旋桨强度的影响[J]. 中国舰船研究,2018,13(4):7-15,32. CHANG X,LI P,WANG C,et al. Effect of ice-load and trim angle on the strength of propeller[J]. Chinese Journal of Ship Research,2018,13(4):7-15,32.
    [3] 计晨,李素云. 石墨烯增强铝基SiC复合材料抗侵彻机理试验与数值仿真[J]. 中国舰船研究,2018,13(4):16-23. JI C,LI S Y. Test and numerical simulation of anti-penetration mechanism for reinforced aluminum matrix SiC composites[J]. Chinese Journal of Ship Research,2018,13(4):16-23.
    [4] 韩正君,赵耀. 船体大破口损伤下总纵极限剩余承载能力计算[J]. 中国舰船研究,2018,13(4):24-32. HAN Z J,ZHAO Y. Calculation of longitudinal residual capacity of ship with large crevasse[J]. Chinese Journal of Ship Research,2018,13(4):24-32.
    [5] 何丽丝,王德禹. 大型客滚船舱段屈曲和疲劳强度直接计算[J]. 中国舰船研究,2018,13(4):33-40. HE L S,WANG D Y. Direct calculation of buckling and fatigue strength of large Ro-Ro ship section[J]. Chinese Journal of Ship Research,2018,13(4):33-40.
    [6] 王晓强,胡耀愚,严仁军. 船舶典型节点弯曲载荷作用下极限强度试验研究[J]. 中国舰船研究,2018,13(4):41-48. WANG X Q,HU Y Y,YAN R J. Experimental study on ultimate strength of typical ship brackets under bending load[J]. Chinese Journal of Ship Research,2018,13(4):41-48.
    [7] 朱军,夏齐强,王智宇,等. 规则波浪中舰船摇荡耦合切片计算方法[J]. 中国舰船研究,2018,13(4):49-56. ZHU J,XIA Q Q,WANG Z Y,et al. Strip calculations for ship oscillation coupled response in regular waves[J]. Chinese Journal of Ship Research,2018,13(4):49-56.
    [8] 徐嘉启,梅志远. 声呐导流罩边界层壁面脉动压力研究进展[J]. 中国舰船研究,2018,13(4):57-69. XU J Q,MEI Z Y. Research progress in sonar dome turbulent boundary layer wall fluctuating pressure[J]. Chinese Journal of Ship Research,2018,13(4):57-69.
    [9] 王广强,吕建伟,徐一帆,等. 基于改进云重心方法的舰船设计方案质量评估[J]. 中国舰船研究,2018,13(4):70-78. WANG G Q,LV J W,XU Y F,et al. Quality evaluation of design alternatives of vessel based on improved cloud barycenter method[J]. Chinese Journal of Ship Research,2018,13(4):70-78.
    [10] 张明霞,韩兵兵,卢鹏程,等. 基于STAR-CCM+的小水线面三体船阻力数值仿真[J]. 中国舰船研究,2018,13(4):79-85. ZHANG M X,HAN B B,LU P C,et al. Numerical simulation for resistance of trimaran small waterplane area center hull based on STAR-CCM+[J]. Chinese Journal of Ship Research,2018,13(4):79-85.
    [11] 王玉红,李磊,张兆德,等. 铺管船运动响应及对铺设管线的耦合作用[J]. 中国舰船研究,2018,13(4):86-92. WANG Y H,LI L,ZHANG Z D,et al. Motion response of pipe-laying vessel and its coupling interaction on pipelines[J]. Chinese Journal of Ship Research,2018,13(4):86-92.
    [12] 亓海青,李志印,周立华. 居住舱室空气环境舒适性数值分析[J]. 中国舰船研究,2018,13(4):93-98. QI H Q,LI Z Y,ZHOU L H. Numerical analysis of air environment comfort in ship accommodation cabin[J]. Chinese Journal of Ship Research,2018,13(4):93-98.
    [13] 杨柳,徐东昊. 基于极短期运动预报的舰载机着舰过程仿真分析[J]. 中国舰船研究,2018,13(4):99-103. YANG L,XU D H. Aircraft carrier landing process simulation based on extremely short-term prediction of ship motion[J]. Chinese Journal of Ship Research,2018,13(4):99-103.
    [14] 张晓阳,陈镟宇,李良才,等. 斜流轴流组合式多级压气机气动设计与流场数值模拟[J]. 中国舰船研究,2018, 13(4):104-110,126. ZHANG X Y,CHEN X Y,LI L C,et al. Aerodynamic design and numerical simulation of mixed-axial flow multi-stage compressor[J]. Chinese Journal of Ship Research,2018,13(4):104-110,126.
    [15] 陈繁,李天匀,赵耀,等. 纵向减振推力轴承液压减振系统的热平衡性能分析[J]. 中国舰船研究,2018,13(4):111-119. CHEN F,LI T Y,ZHAO Y,et al. Analysis of heat balance of piston hydraulic damper system installed on thrust bearing[J]. Chinese Journal of Ship Research,2018,13(4):111-119.
    [16] 郭成豹,周炜昶. 环形线圈退磁设施的电磁设计和试验[J]. 中国舰船研究,2018,13(4):120-126. GUO C B,ZHOU W C. Magnetic design and testing of demagnetization facility with ring-shaped coil[J]. Chinese Jour-nal of Ship Research,2018,13(4):120-126.
    [17] 陈伟南,黄连忠,张勇,等. 基于BP神经网络的船舶主机能效状态评估[J]. 中国舰船研究,2018,13(4):127-133,160. CHEN W N,HUANG L Z,ZHANG Y,et al. Evaluation of main engine energy efficiency based on BP neural network[J]. Chinese Journal of Ship Research,2018,13(4):127-133,160.
    [18] 杨泽鑫,肖健梅,王锡淮,等. 基于差分进化算法的船舶能量管理系统优化策略[J]. 中国舰船研究,2018,13(4):134-141. YANG Z X,XIAO J M,WANG X H,et al. Optimization strategy of ship energy management system based on differential evolution algorithm[J]. Chinese Journal of Ship Research,2018,13(4):134-141.
    [19] 李洪跃,王锡淮,肖健梅. 基于变论域模糊方法的电力推进船舶二次调频控制[J]. 中国舰船研究,2018,13(4):142-148. LI H Y,WANG X H,XIAO J M. Electric propulsion ship secondary frequency control based on variable universe fuzzy method[J]. Chinese Journal of Ship Research,2018,13(4):142-148.
    [20] 华逸飞,李维波,方雄伟,等. 舰船能量管理系统中的VxWorks可视化技术[J]. 中国舰船研究,2018,13(4):149-154. HUA Y F,LI W B,FANG X W,et al. Visual design technology of VxWorks adopted in ship energy management system[J]. Chinese Journal of Ship Research,2018,13(4):149-154.
    [21] 杜一村,杨晨,李玉峰. 某舰用安全监控系统模拟训练软件的设计与实现[J]. 中国舰船研究,2018,13(4):155-160. DU Y C,YANG C,LI Y F. Design and implementation of simulation training software for naval security monitoring system[J]. Chinese Journal of Ship Research,2018,13(4):155-160.
    [22] 陈伟南,黄连忠,张勇,等. 基于BP神经网络的船舶主机能效状态评估[J]. 中国舰船研究,2018,13(4):127-133,160. CHEN W N,HUANG L Z,ZHANG Y,et al. Evaluation of main engine energy efficiency based on BP neural network[J]. Chinese Journal of Ship Research,2018,13(4):127-133,160.
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