Topology Optimization Analysis and Development of a Bracket Using Simulation and Additive Manufacturing (AM) Technology

Conventional methods are not simple or are close to impossible to be used to fabricate topology optimized structures as the final design of topology optimized parts are too complex. The benefit of topology optimized parts and Additive Manufacturing Technology integrate to form an opportunity to fabr...

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Main Author: Noorazli, Nur Aina
Format: Final Year Project
Language:English
Published: IRC 2018
Online Access:http://utpedia.utp.edu.my/20082/1/Dissertation%20_%20NurAinaNoorazli%20%2820712%29.pdf
http://utpedia.utp.edu.my/20082/
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spelling my-utp-utpedia.200822019-12-16T10:03:29Z http://utpedia.utp.edu.my/20082/ Topology Optimization Analysis and Development of a Bracket Using Simulation and Additive Manufacturing (AM) Technology Noorazli, Nur Aina Conventional methods are not simple or are close to impossible to be used to fabricate topology optimized structures as the final design of topology optimized parts are too complex. The benefit of topology optimized parts and Additive Manufacturing Technology integrate to form an opportunity to fabricate light- weight topology optimized parts. Weight reduction structures based on a clamp design is analysed with regards to the tensile/compressive yield strength, weight reduction percentage, total deformation and maximum stress experienced. The constraints that limit the designs are the yield strength and the weight reduction percentage. The parameters which are the changing variables that are dependent on the weight reduction are used to determine whether a structure is at the point of failure or not. The maximum stress and total deformation experienced evaluate the condition and performance of the structure. With this, a selection of the most optimal optimized structure can be done. The aim is to select the most weight reduced structure experiencing the least stresses. The selected structure will then be fabricated using Additive Manufacturing and later investment casted. ANSYS Static Structural and Topology Optimization modules were used to develop the model design, topology optimized, refining optimized structures and conduct simulations on the optimized structures. The simulation results and graph of constraints and parameters that is plotted shows that the 40% weight reduction structured is the most optimized. IRC 2018-09 Final Year Project NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/20082/1/Dissertation%20_%20NurAinaNoorazli%20%2820712%29.pdf Noorazli, Nur Aina (2018) Topology Optimization Analysis and Development of a Bracket Using Simulation and Additive Manufacturing (AM) Technology. IRC, Universiti Teknologi PETRONAS. (Submitted)
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Electronic and Digitized Intellectual Asset
url_provider http://utpedia.utp.edu.my/
language English
description Conventional methods are not simple or are close to impossible to be used to fabricate topology optimized structures as the final design of topology optimized parts are too complex. The benefit of topology optimized parts and Additive Manufacturing Technology integrate to form an opportunity to fabricate light- weight topology optimized parts. Weight reduction structures based on a clamp design is analysed with regards to the tensile/compressive yield strength, weight reduction percentage, total deformation and maximum stress experienced. The constraints that limit the designs are the yield strength and the weight reduction percentage. The parameters which are the changing variables that are dependent on the weight reduction are used to determine whether a structure is at the point of failure or not. The maximum stress and total deformation experienced evaluate the condition and performance of the structure. With this, a selection of the most optimal optimized structure can be done. The aim is to select the most weight reduced structure experiencing the least stresses. The selected structure will then be fabricated using Additive Manufacturing and later investment casted. ANSYS Static Structural and Topology Optimization modules were used to develop the model design, topology optimized, refining optimized structures and conduct simulations on the optimized structures. The simulation results and graph of constraints and parameters that is plotted shows that the 40% weight reduction structured is the most optimized.
format Final Year Project
author Noorazli, Nur Aina
spellingShingle Noorazli, Nur Aina
Topology Optimization Analysis and Development of a Bracket Using Simulation and Additive Manufacturing (AM) Technology
author_facet Noorazli, Nur Aina
author_sort Noorazli, Nur Aina
title Topology Optimization Analysis and Development of a Bracket Using Simulation and Additive Manufacturing (AM) Technology
title_short Topology Optimization Analysis and Development of a Bracket Using Simulation and Additive Manufacturing (AM) Technology
title_full Topology Optimization Analysis and Development of a Bracket Using Simulation and Additive Manufacturing (AM) Technology
title_fullStr Topology Optimization Analysis and Development of a Bracket Using Simulation and Additive Manufacturing (AM) Technology
title_full_unstemmed Topology Optimization Analysis and Development of a Bracket Using Simulation and Additive Manufacturing (AM) Technology
title_sort topology optimization analysis and development of a bracket using simulation and additive manufacturing (am) technology
publisher IRC
publishDate 2018
url http://utpedia.utp.edu.my/20082/1/Dissertation%20_%20NurAinaNoorazli%20%2820712%29.pdf
http://utpedia.utp.edu.my/20082/
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score 13.18916