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Vpliv velikosti delcev in izstopne geometrije dovodne cevke na premer curka prahu pri laserskem direktnem nanašanju
ID Ferlin, Andrej (Author), ID Govekar, Edvard (Mentor) More about this mentor... This link opens in a new window

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Abstract
Lasersko direktno nanašanje kovinskega prahu je ena od uveljavljenih dodajnih tehnologij, ki se uporablja tako za izdelavo novih geometrijsko zahtevnih komponent kot tudi za popravilo poškodovanih ali izrabljenih komponent večje vrednosti. Ena od pomembnih lastnosti procesa laserskega direktnega nanašanja prahu je izkoristek dovedenega prahu. Na izkoristek prahu pomembno vpliva premer curka prahu na površini obdelovanca. Za doseganje velikih izkoristkov prahu mora biti premer curka na površini obdelovanca enak ali manjši od premera talilnega bazena, ustvarjenega z laserskim žarkom na površini obdelovanca. V okviru magistrskega dela smo raziskali vpliv velikosti delcev in izstopne geometrije dovodne cevke prahu na premer curka prahu na osnovi analize vizualnih posnetkov curka prahu. V ta namen smo izdelali eksperimentalno mesto, ki smo ga opremili z ustreznim merilnim sistemom za vizualizacijo curka prahu in opravili sklop preizkusov pri različnih velikostnih razredih delcev prahu in izstopnih geometrijah dovodne cevke. Preizkuse smo opravili pri različnih vrednostih prostorninskega toka nosilnega plina in masnega toka prahu. Ugotovljeno je bilo, da na premer curka prahu najbolj vpliva geometrija izstopa dovodne cevke, medtem ko vpliv velikosti delcev ni bil zaznan. Opazili smo tudi, da je vpliv prostorninskega toka nosilnega plina in masnega pretoka delcev na premer curka prahu zanemarljivo majhen. Vsi rezultati kažejo na režim dvofaznega toka prahu v nosilnem plinu s prevladujočim vplivom trkov delcev s steno dovodne cevke.

Language:Slovenian
Keywords:lasersko direktno nanašanje, curek prahu, zasnova eksperimentalnega mesta, analiza vizualnih posnetkov, velikost delcev, izstopna geometrija cevke
Work type:Master's thesis/paper
Organization:FS - Faculty of Mechanical Engineering
Year:2017
PID:20.500.12556/RUL-98453 This link opens in a new window
Publication date in RUL:02.12.2017
Views:1874
Downloads:551
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Secondary language

Language:English
Title:Influence of the particle size and outlet geometry of the feeding tube on the powder stream diameter in laser direct deposition
Abstract:
Laser direct deposition of metal powder is one of the established additive technologies, which is used both for the production of new complex shape components as well as for repairing of damaged or worn-out high-value components. One of the most important properties of the laser direct deposition of powder is powder catchment efficiency. The powder catchment efficiency is significantly influenced by the diameter of powder stream at the surface of the substrate. In order to achieve high powder catchment efficiency, the diameter of the powder stream at the workpiece surface must be equal to or less than diameter of the melting pool, generated with laser beam on the workpiece surface. In this thesis, the influence of the particle size and output geometry of the feeding tube on the properties of the powder stream was studied based on the analysis of visual images of the powder stream. For this purpose, an experimental setup was designed, built and equipped with appropriate measuring system for visualizing the powder stream. A set of measurements was performed with different values of size ranges of powder and different outlet geometries of the feeding tube. Measurements was performed at different values of the carrier gas volume flow and powder mass flow. It was found that the outlet geometry of feeding tube has the largest influence on the diameter of the powder stream, while the influence of the particle size was insignificant. It was also found that the influence of the carrier gas volume flow and powder mass flow on the diameter of the powder stream is negligible. All results indicates that the two-phase flow of powder in carrier gas is in collision-dominated regime.

Keywords:Lasser direct deposition, Powder stream diameter, Design of the experimental system, Analysis of visual recordings, Powder particle size, Outlet geometry of the feeding tube

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