[1] 罗锡林, 魏建辉, 李飘, 等. 碳纤维编织复合材料层合板抗侵彻性能研究 [J]. 材料开发与应用, 2023, 38(4): 61–68. doi: 10.19515/j.cnki.1003-1545.2023.04.004 LUO X L, WEI J H, LI P, et al. Study on penetration resistance of carbon fiber braided composite laminates [J]. Development and Application of Materials, 2023, 38(4): 61–68. doi: 10.19515/j.cnki.1003-1545.2023.04.004
[2] DU C L, XIA R Z, LIU P, et al. On the impact damage characteristics of spread-tow woven composites: from high velocity to hyper velocity [J]. Engineering Failure Analysis, 2023, 146: 107109. doi: 10.1016/j.engfailanal.2023.107109
[3] PENG Y, WANG X, CHEN X Z, et al. Numerical simulation of the effect of projectile shape and size on the high-velocity impact of carbon fiber reinforced composite laminates [J]. Journal of Materials Research and Technology, 2024, 30: 5109–5120. doi: 10.1016/j.jmrt.2024.04.218
[4] ALONSO L, MARTÍNEZ-HERGUETA F, GARCIA-GONZALEZ D, et al. A finite element approach to model high-velocity impact on thin woven GFRP plates [J]. International Journal of Impact Engineering, 2020, 142: 103593. doi: 10.1016/j.ijimpeng.2020.103593
[5] MEYER C S, O'BRIEN D J, HAQUE B Z, et al. Mesoscale modeling of ballistic impact experiments on a single layer of plain weave composite [J]. Composites Part B: Engineering, 2022, 235: 109753. doi: 10.1016/j.compositesb.2022.109753
[6] 牟浩蕾, 李仪, 宋东方, 等. 芳纶平纹编织复合材料平板弹道冲击特性及损伤分析 [J]. 复合材料科学与工程, 2024(1): 89–97, 104. doi: 10.19936/j.cnki.2096-8000.20240128.012 MOU H L, LI Y, SONG D F, et al. Ballistic impact characteristics and damage analysis of aramid plain woven composite plates [J]. Composites Science and Engineering, 2024(1): 89–97, 104. doi: 10.19936/j.cnki.2096-8000.20240128.012
[7] 陈玉丽, 马勇, 潘飞, 等. 多尺度复合材料力学研究进展 [J]. 固体力学学报, 2018, 39(1): 1–68. doi: 10.19636/j.cnki.cjsm42-1250/o3.2017.030 CHEN Y L, MA Y, PAN F, et al. Research progress in multi-scale mechanics of composite materials [J]. Chinese Journal of Solid Mechanics, 2018, 39(1): 1–68. doi: 10.19636/j.cnki.cjsm42-1250/o3.2017.030
[8] 王新峰. 机织复合材料多尺度渐进损伤研究 [D]. 南京: 南京航空航天大学, 2007. WANG X F. Multi-scale analyses of damage evolution in woven composite materials [D]. Nanjing: Nanjing University of Aeronautics and Astronautics, 2007.
[9] MADKE R R, CHOWDHURY R. A multiscale continuum model for inelastic behavior of woven composite [J]. Composite Structures, 2019, 226: 111267. doi: 10.1016/j.compstruct.2019.111267
[10] ZHU Y X, HE C W, ZHAO T, et al. Towards accurate prediction of the dynamic behavior and failure mechanisms of three-dimensional braided composites: a multiscale analysis scheme [J]. Thin-Walled Structures, 2024, 203: 112188. doi: 10.1016/J.TWS.2024.112188
[11] 张洁皓. 开孔平纹机织复合材料低速冲击性能研究 [D]. 郑州: 郑州大学, 2020. ZHANG J H. Study on low-velocity impact performance of plain weave composites with holes [D]. Zhengzhou: Zhengzhou University, 2020.
[12] 王涛, 侯玉亮, 铁瑛, 等. 基于ECPL模型的平纹机织复合材料低速冲击多尺度模拟 [J]. 振动与冲击, 2020, 39(20): 295–304. doi: 10.13465/j.cnki.jvs.2020.20.038 WANG T, HOU Y L, TIE Y, et al. Multi-scale simulation of low-velocity impact on plain woven composites based on an ECPL model [J]. Journal of Vibration and Shock, 2020, 39(20): 295–304. doi: 10.13465/j.cnki.jvs.2020.20.038
[13] 赵巧莉, 侯玉亮, 刘泽仪, 等. 碳纤维平纹机织复合材料低速冲击及冲击后压缩性能多尺度分析 [J]. 中国机械工程, 2021, 32(14): 1732–1742. doi: 10.3969/j.issn.1004-132X.2021.14.012 ZHAO Q L, HOU Y L, LIU Z Y, et al. Multi-scale analysis of LVI and CAI behaviors of plain woven carbon-fiber-reinforced composites [J]. China Mechanical Engineering, 2021, 32(14): 1732–1742. doi: 10.3969/j.issn.1004-132X.2021.14.012
[14] SMOJVER I, BREZETIĆ D, IVANČEVIĆ D. Explicit multi-scale modelling of intrinsic self-healing after low-velocity impact in GFRP composites [J]. Composite Structures, 2022, 302: 116213. doi: 10.1016/j.compstruct.2022.116213
[15] BAO J W, WANG Y W, AN R, et al. Investigation of the mechanical and ballistic properties of hybrid carbon/aramid woven laminates [J]. Defence Technology, 2022, 18(10): 1822–1833. doi: 10.1016/j.dt.2021.09.009
[16] ZHENG T, GUO L C, HUANG J Z, et al. A novel mesoscopic progressive damage model for 3D angle-interlock woven composites [J]. Composites Science and Technology, 2020, 185: 107894. doi: 10.1016/j.compscitech.2019.107894
[17] 陈占光. 基于多尺度方法的含孔机织复合材料强度分析研究 [D]. 哈尔滨: 哈尔滨工业大学, 2021. CHEN Z G. Strength analysis of woven composites with holes based on multi-scale method [D]. Harbin: Harbin Institute of Technology, 2021.
[18] GAROZ D, GILABERT F A, SEVENOIS R D B, et al. Consistent application of periodic boundary conditions in implicit and explicit finite element simulations of damage in composites [J]. Composites Part B: Engineering, 2019, 168: 254–266. doi: 10.1016/j.compositesb.2018.12.023
[19] CHAMIS C C. Mechanics of composite materials: past, present, and future [J]. Journal of Composites Technology and Research, 1989, 11(1): 3–14. doi: 10.1520/CTR10143J
[20] 葛辛辛. 斜纹编织碳纤维层合厚板低速冲击损伤及剩余压缩强度研究 [D]. 武汉: 华中科技大学, 2022. GE X X. Research on low-velocity impact damage and residual compressive strength of twill woven carbon fiber reinforced thick composite laminates [D]. Wuhan: Huazhong University of Science and Technology, 2022.
[21] TIE Y, HOU Y L, LI C, et al. Optimization for maximizing the impact-resistance of patch repaired CFRP laminates using a surrogate-based model [J]. International Journal of Mechanical Sciences, 2020, 172: 105407. doi: 10.1016/j.ijmecsci.2019.105407
[22] 陈战辉. 碳纤维平纹织物层合板高速冲击损伤研究 [D]. 西安: 西北工业大学, 2019. CHEN Z H. Investigation on damage in carbon woven composite laminates caused by high velocity impact [D]. Xi’an: Northwestern Polytechnical University, 2019.
[23] 方盈盈. 高应变率下碳纤维复合材料动态力学性能研究 [D]. 大连: 大连理工大学, 2018. FANG Y Y. Study on dynamic mechanical properties of carbon fiber reinforced composite materials under high strain rate [D]. Dalian: Dalian University of Technology, 2018.
[24] LI J T, LIU M B. An analytical model to predict the impact of a bullet on ultra-high molecular weight polyethylene composite laminates [J]. Composite Structures, 2022, 282: 115064. doi: 10.1016/j.compstruct.2021.115064