OPTIMISASI STRUKTUR ALUMINIUM FOAM SANDWICH LANTAI KENDARAAN TEMPUR UNTUK MELINDUNGI PERSONIL DARI BEBAN LEDAK MENGGUNAKAN METODE DESIGN FOR SIX SIGMA (DFSS)
The security and defense of a nation are important sectors for a state existnance. Therefore, the development in strategic defense equipments is essential especially in the technology improvement. Currently, landmine explosion phenomenon is one of the focuses in defense technology development, su...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/52114 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The security and defense of a nation are important sectors for a state existnance.
Therefore, the development in strategic defense equipments is essential especially in the
technology improvement. Currently, landmine explosion phenomenon is one of the focuses
in defense technology development, such as in the development of Armoured fighting
vehicle (AFV) to protect military personnel during operation. The protection of military
personnel requires structure enhacement in the AFV design. In terms of protecting the
structure from the effects of explosion, knowledge blast response is required such as blast
response in the function of various parameters, the response of the structure configuration,
and the characteristics of the material. Armoured fighting vehicles are continuously being
developed to protect soldiers from landmines. Protection of soldiers in armoured fighting
vehicles is carried out by put some add-ons structure on the armoured fighting vehicle
floor. The structure being optimize in this research is a sandwich contruction which
consists of aluminum foam as a core material covered with two steel plates on both sides.
Several designs of sandwich structures were proposed in this study, and the optimum
design is selected.
Numerical analysis is chosen to simulate several designs potential. As the actual
test will be expensive and complex, thus design based on experimental tests was not
affordable. Numerical analysis was carried out with non-linear dynamic finite element
code, LS-DYNA, where steel plate is modeled as shell element, aluminum foam is modeled
as solid element, and concentrated explosive load is modeled with load blast. The
numerical simulation results show the responses of the structure in terms of displacement
and acceleration. The structure responses are then use in optimization process using the
statistical method DFSS (Design For Six Sigma)
The optimization results by the DFSS method obtained the optimum design that can
reduce the acceleration by 53.68% and displacement by 25.41% from the baseline design.
This optimation design process can be used for future armoured fighting vehcle
development. |
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