SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4381950898> ?p ?o ?g. }

Showing items 1 to 100 of ±104 with 100 items per page.

W4381950898 endingPage "103663" @default.
W4381950898 startingPage "103663" @default.
W4381950898 abstract "We introduce an experimental method to image melt pool temperature with a single commercial color camera and compare the results with multi-physics computational fluid dynamic (CFD) models. This approach leverages the principle of two-color (i.e., ratiometric) thermal imaging, which is advantageous because it negates the need for a priori knowledge of melt pool emissivity, plume transmissivity, and the camera’s view factor. The color camera’s ability to accurately measure temperature was validated with a National Institute of Standards and Technology (NIST) blackbody source and tungsten filament lamp between temperatures of 1600 K and 2800 K. To demonstrate the technique, an off-axis high-speed color camera operating at 22,500 frames per second capturing a 2.8 mm × 2.8 mm area on the build plate was used to image both no-powder and powder single beads on a commercial laser powder bed fusion machine. Melt pool temperature fields for 316L stainless steel at varying processing conditions show peaks between 3300 K and 3700 K depending on the laser power and increased variability in the presence of powder. Measurements of nickel superalloy 718 and Ti-6Al-4V show comparable temperatures, with increased plume obstruction, especially in Ti-6Al-4V due to vaporization of aluminum. Multi-physics CFD models are used to simulate metal melt pools but some parameters such as the accommodation and Fresnel coefficients are not well characterized. Fitting a FLOW-3D® CFD model to ex-situ measurements of the melt pool cross-sectional geometry for 316L stainless steel identifies multiple combinations of Fresnel coefficient and accommodation coefficient that lead to geometric agreement. Only two of these combinations show agreement with the thermal images, motivating the need for thermal imaging as a means to advance validation of complex physics models. Our methodology can be applied to any color camera to better monitor and understand melt pools that yield high-quality parts." @default.
W4381950898 created "2023-06-26" @default.
W4381950898 creator A5000357737 @default.
W4381950898 creator A5003145576 @default.
W4381950898 creator A5008745801 @default.
W4381950898 creator A5014813167 @default.
W4381950898 creator A5027855773 @default.
W4381950898 creator A5057096685 @default.
W4381950898 creator A5071363551 @default.
W4381950898 creator A5080642283 @default.
W4381950898 date "2023-07-01" @default.
W4381950898 modified "2023-10-08" @default.
W4381950898 title "High-resolution melt pool thermal imaging for metals additive manufacturing using the two-color method with a color camera" @default.
W4381950898 cites W1969025157 @default.
W4381950898 cites W1995972389 @default.
W4381950898 cites W2020460208 @default.
W4381950898 cites W2023248330 @default.
W4381950898 cites W2033293352 @default.
W4381950898 cites W2062846010 @default.
W4381950898 cites W2074111769 @default.
W4381950898 cites W2119302101 @default.
W4381950898 cites W2129200193 @default.
W4381950898 cites W2250894080 @default.
W4381950898 cites W2279780730 @default.
W4381950898 cites W2755097489 @default.
W4381950898 cites W2779842507 @default.
W4381950898 cites W2807439073 @default.
W4381950898 cites W2896931629 @default.
W4381950898 cites W2968004612 @default.
W4381950898 cites W2969408934 @default.
W4381950898 cites W2986724614 @default.
W4381950898 cites W3023846942 @default.
W4381950898 cites W3117648516 @default.
W4381950898 cites W3175645986 @default.
W4381950898 cites W3187151724 @default.
W4381950898 cites W4280619553 @default.
W4381950898 cites W4281567325 @default.
W4381950898 doi "https://doi.org/10.1016/j.addma.2023.103663" @default.
W4381950898 hasPublicationYear "2023" @default.
W4381950898 type Work @default.
W4381950898 citedByCount "0" @default.
W4381950898 crossrefType "journal-article" @default.
W4381950898 hasAuthorship W4381950898A5000357737 @default.
W4381950898 hasAuthorship W4381950898A5003145576 @default.
W4381950898 hasAuthorship W4381950898A5008745801 @default.
W4381950898 hasAuthorship W4381950898A5014813167 @default.
W4381950898 hasAuthorship W4381950898A5027855773 @default.
W4381950898 hasAuthorship W4381950898A5057096685 @default.
W4381950898 hasAuthorship W4381950898A5071363551 @default.
W4381950898 hasAuthorship W4381950898A5080642283 @default.
W4381950898 hasBestOaLocation W43819508981 @default.
W4381950898 hasConcept C120665830 @default.
W4381950898 hasConcept C121332964 @default.
W4381950898 hasConcept C153294291 @default.
W4381950898 hasConcept C159985019 @default.
W4381950898 hasConcept C1633027 @default.
W4381950898 hasConcept C163651212 @default.
W4381950898 hasConcept C191897082 @default.
W4381950898 hasConcept C192562407 @default.
W4381950898 hasConcept C204530211 @default.
W4381950898 hasConcept C26796778 @default.
W4381950898 hasConcept C32993116 @default.
W4381950898 hasConcept C520434653 @default.
W4381950898 hasConcept C542268612 @default.
W4381950898 hasConcept C57879066 @default.
W4381950898 hasConcept C62520636 @default.
W4381950898 hasConcept C72293138 @default.
W4381950898 hasConcept C87976508 @default.
W4381950898 hasConceptScore W4381950898C120665830 @default.
W4381950898 hasConceptScore W4381950898C121332964 @default.
W4381950898 hasConceptScore W4381950898C153294291 @default.
W4381950898 hasConceptScore W4381950898C159985019 @default.
W4381950898 hasConceptScore W4381950898C1633027 @default.
W4381950898 hasConceptScore W4381950898C163651212 @default.
W4381950898 hasConceptScore W4381950898C191897082 @default.
W4381950898 hasConceptScore W4381950898C192562407 @default.
W4381950898 hasConceptScore W4381950898C204530211 @default.
W4381950898 hasConceptScore W4381950898C26796778 @default.
W4381950898 hasConceptScore W4381950898C32993116 @default.
W4381950898 hasConceptScore W4381950898C520434653 @default.
W4381950898 hasConceptScore W4381950898C542268612 @default.
W4381950898 hasConceptScore W4381950898C57879066 @default.
W4381950898 hasConceptScore W4381950898C62520636 @default.
W4381950898 hasConceptScore W4381950898C72293138 @default.
W4381950898 hasConceptScore W4381950898C87976508 @default.
W4381950898 hasLocation W43819508981 @default.
W4381950898 hasOpenAccess W4381950898 @default.
W4381950898 hasPrimaryLocation W43819508981 @default.
W4381950898 hasRelatedWork W1969373034 @default.
W4381950898 hasRelatedWork W1985586612 @default.
W4381950898 hasRelatedWork W2079447722 @default.
W4381950898 hasRelatedWork W2090054610 @default.
W4381950898 hasRelatedWork W2094886249 @default.
W4381950898 hasRelatedWork W2507265215 @default.
W4381950898 hasRelatedWork W2968004612 @default.
W4381950898 hasRelatedWork W4233899900 @default.
W4381950898 hasRelatedWork W4317493004 @default.
W4381950898 hasRelatedWork W190852030 @default.