ANALYSIS OF LIGHTWEIGHT STRUCTURE BASED ON METASTRUCTURE AS ENERGY ABSORPTION ON AIRCRAFT SUB-CARGO

ANALYSIS OF LIGHTWEIGHT STRUCTURE BASED ON METASTRUCTURE AS ENERGY ABSORPTION ON AIRCRAFT SUB-CARGO

Research on geometry and optimization of the use of metastructures as an alternative to energy-absorbing structures in aircraft sub-cargos is based on increasing the crashworthiness of the aircraft. Accidents on planes often occur during the takeoff and landing phases. These accidents cause damag...

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Main Author: Satria Yudhistira, Nanda
Format: Final Project
Language:Indonesia
Subjects:
Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Online Access:https://digilib.itb.ac.id/gdl/view/57144
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:57144
spelling id-itb.:571442021-07-27T21:30:18ZANALYSIS OF LIGHTWEIGHT STRUCTURE BASED ON METASTRUCTURE AS ENERGY ABSORPTION ON AIRCRAFT SUB-CARGO Satria Yudhistira, Nanda Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Indonesia Final Project Metastructure, Specific Energy Absorption (SEA), Sub-cargo, Crashworthiness, Taguchi Method INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/57144 Research on geometry and optimization of the use of metastructures as an alternative to energy-absorbing structures in aircraft sub-cargos is based on increasing the crashworthiness of the aircraft. Accidents on planes often occur during the takeoff and landing phases. These accidents cause damage to the subcargo section of the aircraft and can threaten passengers' safety. Therefore, in this study, the use of lightweight structures based on metastructures for energy absorption in the sub-cargo section of the aircraft will be studied because this structure is lightweight and has an excellent ability to absorb energy. The ability of the lightweight structure based on the metastructure will be evaluated dynamically using the finite element method to obtain specific energy absorption (SEA). In this case, there will be four control factors including geometry, outer height, angle, and material. Each control factor has three levels, which, later, an analysis will be conducted using Analysis of Variance (ANOVA) and optimized using the Taguchi method with the outputs of structure sensitivity to control factors and the optimum design of the structure. The analysis was carried out on unit cells. Five types of unit cells with metastructure-based geometries were tested, including cubic, tetrahedron, double-arrowed auxetic (DAA), double-U (DUH), and reentrant. Then, the optimized unit cell is applied to the sub-cargo of the aircraft. The airplane model used is the back of the Airbus A320 fuselage. The simulation results show that the energy-absorbing structure with DAA type on the sub-cargo produces 27.59 kJ/kg SEA. This SEA value has increased by 48% when compared to the SEA produced by the half-tube structure. These results indicate that the structure with the DAA type can become an alternative energyabsorbing structure in aircraft in the future. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
spellingShingle Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Satria Yudhistira, Nanda
ANALYSIS OF LIGHTWEIGHT STRUCTURE BASED ON METASTRUCTURE AS ENERGY ABSORPTION ON AIRCRAFT SUB-CARGO
description Research on geometry and optimization of the use of metastructures as an alternative to energy-absorbing structures in aircraft sub-cargos is based on increasing the crashworthiness of the aircraft. Accidents on planes often occur during the takeoff and landing phases. These accidents cause damage to the subcargo section of the aircraft and can threaten passengers' safety. Therefore, in this study, the use of lightweight structures based on metastructures for energy absorption in the sub-cargo section of the aircraft will be studied because this structure is lightweight and has an excellent ability to absorb energy. The ability of the lightweight structure based on the metastructure will be evaluated dynamically using the finite element method to obtain specific energy absorption (SEA). In this case, there will be four control factors including geometry, outer height, angle, and material. Each control factor has three levels, which, later, an analysis will be conducted using Analysis of Variance (ANOVA) and optimized using the Taguchi method with the outputs of structure sensitivity to control factors and the optimum design of the structure. The analysis was carried out on unit cells. Five types of unit cells with metastructure-based geometries were tested, including cubic, tetrahedron, double-arrowed auxetic (DAA), double-U (DUH), and reentrant. Then, the optimized unit cell is applied to the sub-cargo of the aircraft. The airplane model used is the back of the Airbus A320 fuselage. The simulation results show that the energy-absorbing structure with DAA type on the sub-cargo produces 27.59 kJ/kg SEA. This SEA value has increased by 48% when compared to the SEA produced by the half-tube structure. These results indicate that the structure with the DAA type can become an alternative energyabsorbing structure in aircraft in the future.
format Final Project
author Satria Yudhistira, Nanda
author_facet Satria Yudhistira, Nanda
author_sort Satria Yudhistira, Nanda
title ANALYSIS OF LIGHTWEIGHT STRUCTURE BASED ON METASTRUCTURE AS ENERGY ABSORPTION ON AIRCRAFT SUB-CARGO
title_short ANALYSIS OF LIGHTWEIGHT STRUCTURE BASED ON METASTRUCTURE AS ENERGY ABSORPTION ON AIRCRAFT SUB-CARGO
title_full ANALYSIS OF LIGHTWEIGHT STRUCTURE BASED ON METASTRUCTURE AS ENERGY ABSORPTION ON AIRCRAFT SUB-CARGO
title_fullStr ANALYSIS OF LIGHTWEIGHT STRUCTURE BASED ON METASTRUCTURE AS ENERGY ABSORPTION ON AIRCRAFT SUB-CARGO
title_full_unstemmed ANALYSIS OF LIGHTWEIGHT STRUCTURE BASED ON METASTRUCTURE AS ENERGY ABSORPTION ON AIRCRAFT SUB-CARGO
title_sort analysis of lightweight structure based on metastructure as energy absorption on aircraft sub-cargo
url https://digilib.itb.ac.id/gdl/view/57144
_version_ 1822930380387254272

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