Dynamic behavior of single curved fiber-metal hybrid lamina composite shells under blast loading-experimental observations

• Published in: Composites science and technology Vol. 234; p. 109930
• Main Authors: Li, Xin, Hao, Xin, Li, Shiqiang, Jin, Tao, Gao, Guangfa
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 22.03.2023
• Subjects: Deformation; Fiber-metal hybrid lamina composite; Hybrid composites; Impact behavior; Resin transfer moulding (RTM); Hybrid composites; Deformation; Impact behavior; Resin transfer moulding (RTM); Fiber-metal hybrid lamina composite
• ISSN: 0266-3538; 1879-1050
• DOI: 10.1016/j.compscitech.2023.109930

In the current study, the dynamic response of single curved fiber-metal hybrid lamina composite (FM-HLC) shells under blast loading was experimentally investigated. The influence of explosive mass and distance, the weave pattern of fiber-metal hybrid lamina, and the radius of curvature was analyzed. The experimental results show that the deformation modes of curved FM-HLC shells under blast are similar to that of metal shells when failure is absent. After failure happens, severe delamination only occurs at the site of damage region rather than extending to other area. This strongly demonstrates that FM-HLC shells have better anti-delamination performance than traditional FMLs when subject to blast loads. For different weave patterns, the global deformation of FM-HLCs decreases with the increase of longitudinal reinforcement level. When the radius of curvature increases from 250 mm to infinity (flat panel), the permanent deflection of the structure gradually increases. Meanwhile, the “counter-intuitive behavior” and “local reverse snap buckling” are observed in the experiments. This work not only provides a strategy for blast resistance design of FM-HLCs, but also offers a good reference for understanding the response of orthotropic panels/shells under blast impact. [Display omitted] •A novel fiber-metal hybrid lamina composite (FM-HLC) shell was fabricated.•FM-HLC shells have excellent anti-delamination performance under blast load.•The “anomalous response” and “local reversed deformation” of FM-HLC shells are first observed.•FM-HLC shells provide flexibility to the design of blast resistance.