Analysis and characterization of additive manufacturing processes
Recently, additive manufacturing (AM) processes have expanded rapidly in various fields of the industry because they offer design freedom, involve layer-by-layer construction from a computerized 3D model (minimizing material consumption), and allow the manufacture of parts with complex geometry (thu...
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National Institute for Aerospace Research “Elie Carafoli” - INCAS
2021
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oai:doaj.org-article:27164345ea57406a9f0aca9ac78cc0ad2021-12-05T21:35:52ZAnalysis and characterization of additive manufacturing processes10.13111/2066-8201.2021.13.4.142066-82012247-4528https://doaj.org/article/27164345ea57406a9f0aca9ac78cc0ad2021-12-01T00:00:00Zhttps://bulletin.incas.ro/files/tofan-negru_barbu_stefan_boglis__vol_13_iss_4.pdfhttps://doaj.org/toc/2066-8201https://doaj.org/toc/2247-4528Recently, additive manufacturing (AM) processes have expanded rapidly in various fields of the industry because they offer design freedom, involve layer-by-layer construction from a computerized 3D model (minimizing material consumption), and allow the manufacture of parts with complex geometry (thus offering the possibility of producing custom parts). Also, they provide the advantage of a short time to make the final parts, do not involve the need for auxiliary resources (cutting tools, lighting fixtures or coolants) and have a low impact on the environment. However, the aspects that make these technologies not yet widely used in industry are poor surface quality of parts, uncertainty about the mechanical properties of products and low productivity. Research on the physical phenomena associated with additive manufacturing processes is necessary for proper control of the phenomena of melting, solidification, vaporization and heat transfer. This paper addresses the relevant additive manufacturing processes and their applications and analyzes the advantages and disadvantages of AM processes compared to conventional production processes. For the aerospace industry, these technologies offer possibilities for manufacturing lighter structures to reduce weight, but improvements in precision must be sought to eliminate the need for finishing processes.Andra TOFAN-NEGRUCristian BARBUAmado STEFANIoana-Carmen BOGLISNational Institute for Aerospace Research “Elie Carafoli” - INCASarticleadditive manufacturingfused deposition modellinginkjet printinglaminated object manufacturinglaser engineered net shapingstereolithographyselective laser sinteringthree-dimensional printingMotor vehicles. Aeronautics. AstronauticsTL1-4050ENINCAS Bulletin, Vol 13, Iss 4, Pp 167-180 (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
additive manufacturing fused deposition modelling inkjet printing laminated object manufacturing laser engineered net shaping stereolithography selective laser sintering three-dimensional printing Motor vehicles. Aeronautics. Astronautics TL1-4050 |
| spellingShingle |
additive manufacturing fused deposition modelling inkjet printing laminated object manufacturing laser engineered net shaping stereolithography selective laser sintering three-dimensional printing Motor vehicles. Aeronautics. Astronautics TL1-4050 Andra TOFAN-NEGRU Cristian BARBU Amado STEFAN Ioana-Carmen BOGLIS Analysis and characterization of additive manufacturing processes |
| description |
Recently, additive manufacturing (AM) processes have expanded rapidly in various fields of the industry because they offer design freedom, involve layer-by-layer construction from a computerized 3D model (minimizing material consumption), and allow the manufacture of parts with complex geometry (thus offering the possibility of producing custom parts). Also, they provide the advantage of a short time to make the final parts, do not involve the need for auxiliary resources (cutting tools, lighting fixtures or coolants) and have a low impact on the environment. However, the aspects that make these technologies not yet widely used in industry are poor surface quality of parts, uncertainty about the mechanical properties of products and low productivity. Research on the physical phenomena associated with additive manufacturing processes is necessary for proper control of the phenomena of melting, solidification, vaporization and heat transfer. This paper addresses the relevant additive manufacturing processes and their applications and analyzes the advantages and disadvantages of AM processes compared to conventional production processes. For the aerospace industry, these technologies offer possibilities for manufacturing lighter structures to reduce weight, but improvements in precision must be sought to eliminate the need for finishing processes. |
| format |
article |
| author |
Andra TOFAN-NEGRU Cristian BARBU Amado STEFAN Ioana-Carmen BOGLIS |
| author_facet |
Andra TOFAN-NEGRU Cristian BARBU Amado STEFAN Ioana-Carmen BOGLIS |
| author_sort |
Andra TOFAN-NEGRU |
| title |
Analysis and characterization of additive manufacturing processes |
| title_short |
Analysis and characterization of additive manufacturing processes |
| title_full |
Analysis and characterization of additive manufacturing processes |
| title_fullStr |
Analysis and characterization of additive manufacturing processes |
| title_full_unstemmed |
Analysis and characterization of additive manufacturing processes |
| title_sort |
analysis and characterization of additive manufacturing processes |
| publisher |
National Institute for Aerospace Research “Elie Carafoli” - INCAS |
| publishDate |
2021 |
| url |
https://doaj.org/article/27164345ea57406a9f0aca9ac78cc0ad |
| work_keys_str_mv |
AT andratofannegru analysisandcharacterizationofadditivemanufacturingprocesses AT cristianbarbu analysisandcharacterizationofadditivemanufacturingprocesses AT amadostefan analysisandcharacterizationofadditivemanufacturingprocesses AT ioanacarmenboglis analysisandcharacterizationofadditivemanufacturingprocesses |
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