DEVELOPMENT OF VIBRATION-BASED DAMAGE DETECTION ON COMPOSITE MATERIAL
Carbon fiber reinforced polymer, or CFRP, is a strong and lightweight composite material that often being used in a high-performance demanding industry such as aerospace and high-performance vehicle. However, the high-complexity process of manufacturing CFRP causes a high likelihood that defects...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/70286 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Carbon fiber reinforced polymer, or CFRP, is a strong and lightweight composite
material that often being used in a high-performance demanding industry such as
aerospace and high-performance vehicle. However, the high-complexity process of
manufacturing CFRP causes a high likelihood that defects and damages be
embedded in the component. If ignored, these defects may cause a catastrophic
failure during usage. Hence it is crucial to be able to reliably detect damages and
defects on a CFRP component.
From common industry standards, damage detection on metal material is
commonly done using vibration. This gave the idea of using the same method on
CFRP materials to detect embedded defects. As a proof of concept, this research
tries to detect artificial delamination, fiber-breakages, and cracks on a CFRP
specimens utilizing a low frequency (? 100 Hz) sinusoidal wave generated from an
oscillator.
Using qualitative visual observation on time and frequency domain data combined
with the results from test of equivalence of spectra as a quantitative method, the
vibration-based method has successfully detected the artificial damages and
defects. Visual observation shows that the crack damage can be clearly detected
but not the defects. The equivalence of spectra tests shows a better result that the
defects can be detected and even identified from each other. In other words, the
concept of using vibration as damage detection method on CFRP has been proven
to be a capable method. |
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