NUMERICAL INVESTIGATION ON COMPRESSION STRENGTH AFTER LOW-VELOCITY IMPACT OF COMPOSITE SANDWICH PANELS
The potential use of sandwich structures in aerospace, aviation, and various other industries is substantial. However, the understanding of its damage tolerance is limited due to its complexity. To better understand the sandwich structure’s damage tolerance characteristics, residual strength test...
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| Format: | Final Project |
| Language: | Indonesia |
| Subjects: | |
| Online Access: | https://digilib.itb.ac.id/gdl/view/81024 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The potential use of sandwich structures in aerospace, aviation, and various other
industries is substantial. However, the understanding of its damage tolerance is
limited due to its complexity. To better understand the sandwich structure’s damage
tolerance characteristics, residual strength tests are performed on sandwich
structures. One of these tests is the compression-after-impact (CAI) test. Before
performing CAI test, numerical simulation of composite sandwich panel under
compression testing was performed. Next, numerical simulation of the low-velocity
impact (LVI) test followed by CAI test was performed on unidirectional foam-cored
composite sandwich panels using the finite element method (FEM) on the software
ABAQUS. The model used for this numerical investigation was validated with
previous studies, mesh convergence test, and energy analysis. The result of this
numerical investigation shows that low-velocity impact can cause significant
reduction in compressive strength of the composite sandwich panel. The critical
damage mode of the unidirectional composite sandwich panel from CAI testing is
the damage of its matrix, especially the matrix compressive damage. The CAI
behaviour of the composite sandwich panel is very complex and highly dependent
on its geometry and material properties. It is found that for low-velocity impact with
an impact energy of 12 J and over on the composite sandwich panel, the residual
compressive strength decreases with the increase in impact energy levels. |
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