Manufacturability of structure in selective laser melting for quuality assurance

This project aimed to generate theoretical graphs relating expected relative densities to energy densities of three metals commonly fabricated using Selective Laser Melting (SLM), and one graph relating strut variance thickness to the energy density of Ti6Al4V, a metal that is commonly fabricated by...

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Main Author: Nicole Dominique Savia De Rozario
Other Authors: Yeong Wai Yee
Format: Final Year Project
Language:English
Published: 2015
Subjects:
Online Access:http://hdl.handle.net/10356/65162
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-651622023-03-04T18:54:23Z Manufacturability of structure in selective laser melting for quuality assurance Nicole Dominique Savia De Rozario Yeong Wai Yee School of Mechanical and Aerospace Engineering DRNTU::Engineering::Mechanical engineering This project aimed to generate theoretical graphs relating expected relative densities to energy densities of three metals commonly fabricated using Selective Laser Melting (SLM), and one graph relating strut variance thickness to the energy density of Ti6Al4V, a metal that is commonly fabricated by SLM and used for orthopaedic implants. This project also aims to analyse the validity of current density test methods to assess the quality of parts fabricated using Additive Manufacturing (AM). SLM is a relatively new additive manufacturing process that builds parts layer-by-layer by fusing powder particles using laser. Parts are based three-dimensional computer-aided designed models. SLM is capable of producing fully functional parts containing complex internal and external geometries in a single manufacturing step. This saves in time and cost, making it popular as a manufacturing technique. Its capability for low volume and mass customisation production make it suitable for application in the aerospace and biomedical fields, where products can be tailored to patients’ specific needs. However, application is limited due to the lack of a recognised international standard in measuring techniques of parts produced by AM. In this report, data from previous studies were collected and consolidated to form graphs that provide information of expected mechanical properties for a given set of parameters. Samples were fabricated and undergone several tests to validate the graphs. Simultaneously, these test methods were assessed for their repeatability and validity in measuring samples produced using SLM. Graphs generated, while give an idea of the expected relative densities of various parameters, must be given an allowance to account for variables not previously considered such as powder size and quality. Analysis of data showed that the Archimedes’ principle has a high rate of repeatability, with deviation of less than 1%. Bachelor of Engineering (Mechanical Engineering) 2015-06-15T06:03:44Z 2015-06-15T06:03:44Z 2015 2015 Final Year Project (FYP) http://hdl.handle.net/10356/65162 en Nanyang Technological University 51 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Mechanical engineering
spellingShingle DRNTU::Engineering::Mechanical engineering
Nicole Dominique Savia De Rozario
Manufacturability of structure in selective laser melting for quuality assurance
description This project aimed to generate theoretical graphs relating expected relative densities to energy densities of three metals commonly fabricated using Selective Laser Melting (SLM), and one graph relating strut variance thickness to the energy density of Ti6Al4V, a metal that is commonly fabricated by SLM and used for orthopaedic implants. This project also aims to analyse the validity of current density test methods to assess the quality of parts fabricated using Additive Manufacturing (AM). SLM is a relatively new additive manufacturing process that builds parts layer-by-layer by fusing powder particles using laser. Parts are based three-dimensional computer-aided designed models. SLM is capable of producing fully functional parts containing complex internal and external geometries in a single manufacturing step. This saves in time and cost, making it popular as a manufacturing technique. Its capability for low volume and mass customisation production make it suitable for application in the aerospace and biomedical fields, where products can be tailored to patients’ specific needs. However, application is limited due to the lack of a recognised international standard in measuring techniques of parts produced by AM. In this report, data from previous studies were collected and consolidated to form graphs that provide information of expected mechanical properties for a given set of parameters. Samples were fabricated and undergone several tests to validate the graphs. Simultaneously, these test methods were assessed for their repeatability and validity in measuring samples produced using SLM. Graphs generated, while give an idea of the expected relative densities of various parameters, must be given an allowance to account for variables not previously considered such as powder size and quality. Analysis of data showed that the Archimedes’ principle has a high rate of repeatability, with deviation of less than 1%.
author2 Yeong Wai Yee
author_facet Yeong Wai Yee
Nicole Dominique Savia De Rozario
format Final Year Project
author Nicole Dominique Savia De Rozario
author_sort Nicole Dominique Savia De Rozario
title Manufacturability of structure in selective laser melting for quuality assurance
title_short Manufacturability of structure in selective laser melting for quuality assurance
title_full Manufacturability of structure in selective laser melting for quuality assurance
title_fullStr Manufacturability of structure in selective laser melting for quuality assurance
title_full_unstemmed Manufacturability of structure in selective laser melting for quuality assurance
title_sort manufacturability of structure in selective laser melting for quuality assurance
publishDate 2015
url http://hdl.handle.net/10356/65162
_version_ 1759854106387677184