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    Journals >Chinese Journal of Ship Research >Volume 19 >Issue 6 >Page 257 > Article
    • Chinese Journal of Ship Research
    • Vol. 19, Issue 6, 257 (2024)
    Multi-scale analysis of marine carbon/glass hybrid composite top-hat stiffened panel structure for integrated design
    Anyu LIU1,2, Bin LIU1, Jiajing LEI3, Kai QIN1, and Weiguo WU1
    Author Affiliations
  • 1Green & Smart River-Sea-Going Ship, Cruise and Yacht Research Center, Wuhan University of Technology, Wuhan 430063, China
  • 2School of Naval Architecture, Ocean and Energy Power Engineering, Wuhan University of Technology, Wuhan 430063, China
  • 3China Ship Development and Design Center, Wuhan 430064, China
    • show less
    DOI: 10.19693/j.issn.1673-3185.03459 Cite this Article
    Anyu LIU, Bin LIU, Jiajing LEI, Kai QIN, Weiguo WU. Multi-scale analysis of marine carbon/glass hybrid composite top-hat stiffened panel structure for integrated design[J]. Chinese Journal of Ship Research, 2024, 19(6): 257 Copy Citation Text show less
    [in Chinese]
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    构件名称铺层顺序
    甲板板TC33/CSM/TC33/WR/TC33/UDT/TC33/UDT/TC33/WR/TC33/WR/TC33/CSM
    纵桁、横梁TC33/WR/TC33/WR/TC33/UDT/TC33/UDT/TC33/WR/TC33/CSM
    纵骨TC33/WR/TC33/WR/TC33/WR/TC33/WR/TC33/CSM
    Table 1. Stacking sequence of the components in composite top-hat stiffened panels
    View in the Article
    微观参数CSM纤维束UDT纤维束WR纤维束TC33纤维束
    纤维组分E-glass纤维丝E-glass纤维丝E-glass纤维丝TC33碳纤维丝
    基体组分聚酯树脂聚酯树脂聚酯树脂环氧树脂
    纤维排列方式定向分布定向分布定向分布定向分布
    纤维丝直径/μm14.314.314.36.45
    纤维含量0.70.60.780.65
    细观参数CSM单层板UDT单层板WR单层板TC33单层板
    纤维组分CSM纤维束UDT纤维束WR纤维束TC33纤维束
    基体组分聚酯树脂聚酯树脂聚酯树脂环氧树脂
    纤维排列方式随机分布型单向分布型平纹编织型平纹编织型
    纤维束直径/mm0.180.2纱线宽度1.8,纱线厚度0.15,纱线间距2.0纱线宽度1.65,纱线厚度0.11,纱线间距0.34
    纤维含量0.330.540.50.68
    Table 2. Microscopic and mesoscopic component parameters of various materials[15,18-19]
    View in the Article
    参数E-glass纤维丝TC33碳纤维丝聚酯树脂基体环氧树脂基体
    密度/(kg·m−32 5401 8001 3001 200
    弹性模量/MPa72 000230 0002 0003 080
    强度/MPa3 4003 4504080
    泊松比0.220.250.350.35
    Table 3. Microscopic mechanical performance parameters of fiber strands and matrix[15,18-19]
    View in the Article
    等效刚度参数E11/MPaE22/MPaE33/MPaG12/MPaG13/MPaG23/MPaV12V13V23
    TC33纱线156 012.3103 968.9102 660.220 105.620 018.55005.90.280.280.31
    WR纱线42 007.310 976.911 041.94 908.15 038.73 561.70.250.250.31
    CSM纤维束39 671.38 684.58 649.44 083.74049.53 251.10.250.260.38
    UDT纤维束37 022.87 428.57 281.23 085.82 993.72 447.90.260.270.37
    Table 4. Calculation results of equivalent stiffness for mesoscopic fiber bundles and yarns
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    等效刚度参数E11/MPaE22/MPaE33/MPaG12/MPaG13/MPaG23/MPaV12V13V23
    TC33单层板44598.844598.88436.23955.22145.62145.60.190.320.32
    WR单层板14261.114261.15082.22058.01512.41512.40.130.370.37
    CSM单层板6638.86638.86638.81465.41465.41465.40.340.340.34
    UDT单层板18382.73080.12857.91111.6969.5948.10.320.320.37
    Table 5. Calculation results of equivalent stiffness for macroscopic single-layered plates
    View in the Article
    等效强度参数轴向拉伸/MPa轴向压缩/MPa横向拉伸/MPa横向压缩/MPa面内剪切/MPa面外剪切/MPa
    TC33纱线2056.71984.896.0321.428.541.5
    WR纱线1620.41686.6190.2235.931.181.4
    CSM纤维束1511.91528.2114.3229.629.050.3
    UDT纤维束1245.91439.995.8176.428.138.8
    Table 6. Calculation results of equivalent strength for microscopic fiber bundles and yarns
    View in the Article
    等效强度参数轴向拉伸/MPa轴向压缩/MPa横向拉伸/MPa横向压缩/MPa面内剪切/MPa面外剪切/MPa
    TC33单层板363.5227.1363.5227.128.245.5
    WR单层板127.899.2127.899.243.655.3
    CSM单层板76.3116.276.3116.229.630.1
    UDT单层板235.4211.811.929.75.813.6
    Table 7. Calculation results of equivalent strength for macroscopic single-layer plates
    View in the Article
    力学性能TC33单层板WR单层板CSM单层板UDT单层板
    计算值规范值计算值规范值计算值规范值计算值规范值
    拉伸模量/MPa44 598.8< 4936614 261.1< 145006 338.8< 6 950.018 382.7< 20 400.0
    面内剪切模量/MPa3 955.2< 4 105.12 058.0< 3 0901 465.4< 2 801.01111.6< 1 342.7
    极限拉伸强度/MPa363.5< 433.9127.8< 19076.3< 91.0235.4< 264.9
    极限压缩强度/MPa227.1< 292.399.2< 147116.2< 121.5211.8< 214.1
    极限剪切强度/MPa28.2< 33.443.6< 7829.6< 64.45.8< 12.9
    Table 8. Mechanical properties of single-layer plates for each material
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    Anyu LIU, Bin LIU, Jiajing LEI, Kai QIN, Weiguo WU. Multi-scale analysis of marine carbon/glass hybrid composite top-hat stiffened panel structure for integrated design[J]. Chinese Journal of Ship Research, 2024, 19(6): 257
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