X-ray assessment of porosity in 3D-printed metal components
Additive Manufacturing has enjoyed much fervency in the recent years both in the commercial and industrial sectors. Vis-à-vis conventional manufacturing methods of molding, casting, machining and assembly which comes with a hefty price tag, additive manufacturing brings with it immense potential (En...
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sg-ntu-dr.10356-631612023-03-04T18:30:58Z X-ray assessment of porosity in 3D-printed metal components Tan, Shaun Xin Wei Wong, Brian Stephen School of Mechanical and Aerospace Engineering A*STAR Singapore Institute of Manufacturing Technology DRNTU::Engineering::Materials::Metallic materials::Alloys DRNTU::Engineering::Materials::Testing of materials Additive Manufacturing has enjoyed much fervency in the recent years both in the commercial and industrial sectors. Vis-à-vis conventional manufacturing methods of molding, casting, machining and assembly which comes with a hefty price tag, additive manufacturing brings with it immense potential (Engineering, 2013). Additive manufacturing not only allows the production of highly intricate and complex shapes with time and cost savings but also substantial reduction in material wastage or industrial waste commonly observed in conventional manufacturing sectors. With the advent of additive manufacturing technology in the automotive and also the aerospace scene, porosity levels of additively manufactured parts are gaining interest in the Additive Manufacturing community. This is even more so for the aerospace industry as parts are extremely costly to manufacture and any failure of a single unit/component can potentially jeopardize a critical operation and at times even leading to the loss of lives. Porosity levels are extremely detrimental and undesirable when parts produced are subjected to high stress levels during operations. Moreover, variability in the porosity levels of manufactured parts is also an accurate reflection of the health of the Additive Manufacturing Process. In this article, the porosity in 3D-printed metal components will be assessed using both 2D and 3D X-ray imaging. Image processing tools will be identified and implemented to support the assessment of porosity and subsequent attempts will be made to link the determined porosity levels to parameters in the 3D printing process. The functions of the parameters in the scanning process as well as the reconstruction process will be investigated and optimized to provide optimal images to aid further image analysis. This will lead to further cost and time savings. Bachelor of Engineering (Aerospace Engineering) 2015-05-08T02:27:51Z 2015-05-08T02:27:51Z 2015 2015 Final Year Project (FYP) http://hdl.handle.net/10356/63161 en Nanyang Technological University 104 p. application/pdf |
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DRNTU::Engineering::Materials::Metallic materials::Alloys DRNTU::Engineering::Materials::Testing of materials Tan, Shaun Xin Wei X-ray assessment of porosity in 3D-printed metal components |
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Additive Manufacturing has enjoyed much fervency in the recent years both in the commercial and industrial sectors. Vis-à-vis conventional manufacturing methods of molding, casting, machining and assembly which comes with a hefty price tag, additive manufacturing brings with it immense potential (Engineering, 2013). Additive manufacturing not only allows the production of highly intricate and complex shapes with time and cost savings but also substantial reduction in material wastage or industrial waste commonly observed in conventional manufacturing sectors. With the advent of additive manufacturing technology in the automotive and also the aerospace scene, porosity levels of additively manufactured parts are gaining interest in the Additive Manufacturing community. This is even more so for the aerospace industry as parts are extremely costly to manufacture and any failure of a single unit/component can potentially jeopardize a critical operation and at times even leading to the loss of lives. Porosity levels are extremely detrimental and undesirable when parts produced are subjected to high stress levels during operations. Moreover, variability in the porosity levels of manufactured parts is also an accurate reflection of the health of the Additive Manufacturing Process. In this article, the porosity in 3D-printed metal components will be assessed using both 2D and 3D X-ray imaging. Image processing tools will be identified and implemented to support the assessment of porosity and subsequent attempts will be made to link the determined porosity levels to parameters in the 3D printing process. The functions of the parameters in the scanning process as well as the reconstruction process will be investigated and optimized to provide optimal images to aid further image analysis. This will lead to further cost and time savings. |
| author2 |
Wong, Brian Stephen |
| author_facet |
Wong, Brian Stephen Tan, Shaun Xin Wei |
| format |
Final Year Project |
| author |
Tan, Shaun Xin Wei |
| author_sort |
Tan, Shaun Xin Wei |
| title |
X-ray assessment of porosity in 3D-printed metal components |
| title_short |
X-ray assessment of porosity in 3D-printed metal components |
| title_full |
X-ray assessment of porosity in 3D-printed metal components |
| title_fullStr |
X-ray assessment of porosity in 3D-printed metal components |
| title_full_unstemmed |
X-ray assessment of porosity in 3D-printed metal components |
| title_sort |
x-ray assessment of porosity in 3d-printed metal components |
| publishDate |
2015 |
| url |
http://hdl.handle.net/10356/63161 |
| _version_ |
1759855116859473920 |